blender-archive/intern/opensubdiv/internal/topology/topology_refiner_impl_compare.cc

// Copyright 2018 Blender Foundation. All rights reserved.
//
// 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.
//
// 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, write to the Free Software Foundation,
// Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// Author: Sergey Sharybin

#include "internal/topology/topology_refiner_impl.h"

#include "internal/base/type.h"
#include "internal/base/type_convert.h"
#include "internal/topology/mesh_topology.h"
#include "internal/topology/topology_refiner_impl.h"

#include "opensubdiv_converter_capi.h"

namespace blender {
namespace opensubdiv {
namespace {

const OpenSubdiv::Far::TopologyRefiner *getOSDTopologyRefiner(
    const TopologyRefinerImpl *topology_refiner_impl)
{
  return topology_refiner_impl->topology_refiner;
}

const OpenSubdiv::Far::TopologyLevel &getOSDTopologyBaseLevel(
    const TopologyRefinerImpl *topology_refiner_impl)
{
  return getOSDTopologyRefiner(topology_refiner_impl)->GetLevel(0);
}

////////////////////////////////////////////////////////////////////////////////
// Quick preliminary checks.

bool checkSchemeTypeMatches(const TopologyRefinerImpl *topology_refiner_impl,
                            const OpenSubdiv_Converter *converter)
{
  const OpenSubdiv::Sdc::SchemeType converter_scheme_type =
      blender::opensubdiv::getSchemeTypeFromCAPI(converter->getSchemeType(converter));
  return (converter_scheme_type == getOSDTopologyRefiner(topology_refiner_impl)->GetSchemeType());
}

bool checkOptionsMatches(const TopologyRefinerImpl *topology_refiner_impl,
                         const OpenSubdiv_Converter *converter)
{
  typedef OpenSubdiv::Sdc::Options Options;
  const Options options = getOSDTopologyRefiner(topology_refiner_impl)->GetSchemeOptions();
  const Options::FVarLinearInterpolation fvar_interpolation = options.GetFVarLinearInterpolation();
  const Options::FVarLinearInterpolation converter_fvar_interpolation =
      blender::opensubdiv::getFVarLinearInterpolationFromCAPI(
          converter->getFVarLinearInterpolation(converter));
  if (fvar_interpolation != converter_fvar_interpolation) {
    return false;
  }
  return true;
}

bool checkPreliminaryMatches(const TopologyRefinerImpl *topology_refiner_impl,
                             const OpenSubdiv_Converter *converter)
{
  return checkSchemeTypeMatches(topology_refiner_impl, converter) &&
         checkOptionsMatches(topology_refiner_impl, converter);
}

////////////////////////////////////////////////////////////////////////////////
// Compare attributes which affects on topology.
//
// TODO(sergey): Need to look into how auto-winding affects on face-varying
// indexing and, possibly, move to mesh topology as well if winding affects
// face-varyign as well.

bool checkSingleUVLayerMatch(const OpenSubdiv::Far::TopologyLevel &base_level,
                             const OpenSubdiv_Converter *converter,
                             const int layer_index)
{
  converter->precalcUVLayer(converter, layer_index);
  const int num_faces = base_level.GetNumFaces();
  // TODO(sergey): Need to check whether converter changed the winding of
  // face to match OpenSubdiv's expectations.
  for (int face_index = 0; face_index < num_faces; ++face_index) {
    OpenSubdiv::Far::ConstIndexArray base_level_face_uvs = base_level.GetFaceFVarValues(
        face_index, layer_index);
    for (int corner = 0; corner < base_level_face_uvs.size(); ++corner) {
      const int uv_index = converter->getFaceCornerUVIndex(converter, face_index, corner);
      if (base_level_face_uvs[corner] != uv_index) {
        converter->finishUVLayer(converter);
        return false;
      }
    }
  }
  converter->finishUVLayer(converter);
  return true;
}

bool checkUVLayersMatch(const TopologyRefinerImpl *topology_refiner_impl,
                        const OpenSubdiv_Converter *converter)
{
  using OpenSubdiv::Far::TopologyLevel;
  const int num_layers = converter->getNumUVLayers(converter);
  const TopologyLevel &base_level = getOSDTopologyBaseLevel(topology_refiner_impl);
  // Number of UV layers should match.
  if (base_level.GetNumFVarChannels() != num_layers) {
    return false;
  }
  for (int layer_index = 0; layer_index < num_layers; ++layer_index) {
    if (!checkSingleUVLayerMatch(base_level, converter, layer_index)) {
      return false;
    }
  }
  return true;
}

bool checkTopologyAttributesMatch(const TopologyRefinerImpl *topology_refiner_impl,
                                  const OpenSubdiv_Converter *converter)
{
  return checkUVLayersMatch(topology_refiner_impl, converter);
}

}  // namespace

bool TopologyRefinerImpl::isEqualToConverter(const OpenSubdiv_Converter *converter) const
{
  if (!blender::opensubdiv::checkPreliminaryMatches(this, converter)) {
    return false;
  }

  if (!base_mesh_topology.isEqualToConverter(converter)) {
    return false;
  }

  // NOTE: Do after geometry check, to be sure topology does match and all
  // indexing will go fine.
  if (!blender::opensubdiv::checkTopologyAttributesMatch(this, converter)) {
    return false;
  }

  return true;
}

}  // namespace opensubdiv
}  // namespace blender