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/**************************************************************************
* *
* Regina - A Normal Surface Theory Calculator *
* Computational Engine *
* *
* Copyright (c) 1999-2025, Ben Burton *
* For further details contact Ben Burton (bab@debian.org). *
* *
* This program is free software; you can redistribute it and/or *
* modify it under the terms of the GNU General Public License as *
* published by the Free Software Foundation; either version 2 of the *
* License, or (at your option) any later version. *
* *
* As an exception, when this program is distributed through (i) the *
* App Store by Apple Inc.; (ii) the Mac App Store by Apple Inc.; or *
* (iii) Google Play by Google Inc., then that store may impose any *
* digital rights management, device limits and/or redistribution *
* restrictions that are required by its terms of service. *
* *
* This program is distributed in the hope that it will be useful, but *
* WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
* General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program. If not, see <https://www.gnu.org/licenses/>. *
* *
**************************************************************************/
#include "triangulation/detail/algebra-impl.h"
#include "triangulation/detail/isosig-impl.h"
#include "triangulation/detail/moves-impl.h"
#include "triangulation/detail/skeleton-impl.h"
#include "triangulation/detail/triangulation-impl.h"
#include "triangulation/generic.h"
namespace regina::detail {
template std::string TriangulationBase<11>::isoSigFrom
<IsoSigPrintable<11>>(size_t, const Perm<12>&, Isomorphism<11>*) const;
template std::string TriangulationBase<11>::isoSig<
IsoSigClassic<11>, IsoSigPrintable<11>>() const;
template std::pair<std::string, Isomorphism<11>>
TriangulationBase<11>::isoSigDetail<
IsoSigClassic<11>, IsoSigPrintable<11>>() const;
template Triangulation<11> TriangulationBase<11>::fromIsoSig(
const std::string&);
template size_t TriangulationBase<11>::isoSigComponentSize(const std::string&);
template AbelianGroup TriangulationBase<11>::homology<1>() const;
template AbelianGroup TriangulationBase<11>::homology<2>() const;
template AbelianGroup TriangulationBase<11>::homology<3>() const;
template AbelianGroup TriangulationBase<11>::homology<4>() const;
template AbelianGroup TriangulationBase<11>::homology<5>() const;
template AbelianGroup TriangulationBase<11>::homology<6>() const;
template AbelianGroup TriangulationBase<11>::homology<7>() const;
template AbelianGroup TriangulationBase<11>::homology<8>() const;
template AbelianGroup TriangulationBase<11>::homology<9>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<1>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<2>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<3>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<4>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<5>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<6>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<7>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<8>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<9>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<10>() const;
template MatrixInt TriangulationBase<11>::boundaryMap<11>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<1>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<2>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<3>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<4>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<5>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<6>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<7>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<8>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<9>() const;
template MatrixInt TriangulationBase<11>::dualBoundaryMap<10>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<0>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<1>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<2>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<3>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<4>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<5>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<6>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<7>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<8>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<9>() const;
template MatrixInt TriangulationBase<11>::dualToPrimal<10>() const;
template const GroupPresentation& TriangulationBase<11>::group() const;
template void TriangulationBase<11>::calculateSkeleton();
template void TriangulationBase<11>::cloneSkeleton(
const TriangulationBase<11>&);
template void TriangulationBase<11>::clearBaseProperties();
template void TriangulationBase<11>::swapBaseData(TriangulationBase<11>&);
template bool TriangulationBase<11>::internalPachner(Face<11, 0>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 1>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 2>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 3>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 4>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 5>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 6>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 7>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 8>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 9>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 10>*, bool, bool);
template bool TriangulationBase<11>::internalPachner(Face<11, 11>*, bool, bool);
template bool TriangulationBase<11>::internal20(Face<11, 0>*, bool, bool);
template bool TriangulationBase<11>::internal20(Face<11, 1>*, bool, bool);
template bool TriangulationBase<11>::internal20(Face<11, 2>*, bool, bool);
template void TriangulationBase<11>::writeTextShort(std::ostream&) const;
template void TriangulationBase<11>::writeTextLong(std::ostream&) const;
template void TriangulationBase<11>::reorderBFS(bool);
template Triangulation<11> TriangulationBase<11>::doubleCover() const;
template Triangulation<11> TriangulationBase<11>::doubleOverBoundary() const;
template bool TriangulationBase<11>::makeIdeal();
template std::string TriangulationBase<11>::source(Language) const;
template void TriangulationBase<11>::writeDot(std::ostream&, bool) const;
} // namespace regina::detail
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