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Using IO::Options

This example shows:

The class OpenMesh::IO::Options can be used when reading/writing a mesh. It controls the behaviour of the reader/writer modules by means of enabled/disabled bits in a bitset. The class provides an interface for enabling, disabling and verifying the bits in the set. We distinguish between

  1. mode bits - control binary reading/writing
  2. property bits - controls which standard properties to read/write

These bits have different effects when reading or writing. The file format itself is selected by the extension of the filename. The IO subsystem of the OpenMesh library supports currently four formats. The following table list all formats and indicates whether the format supports ASCII/binary storage with the apropiate extension.

FormatAsciiBinary
OFF.off.off
OBJ.obj
STL.stla, .stl.stlb, .stl
OM.om

The program does not more than providing a command line based interface to select the option bits for reading/writing and to request mesh properties. Hence illegal combinations are possible and will result in a failure of the program. (The input file won't be damaged in this case, but becareful where you put the ouput file!)

Reading meshes

When reading a file the mode bits are used to give the reader an advice or hint. Depending on the format we can help the reader to interpret the data correctly. First of all we can tell it that the file contains binary data.

        ropt += IO::Options::Binary; 

Further on we can ask the reader two swap the byte-order.

        ropt += IO::Options::Swap; 

(Both can be done via the command line with the options -b and -s, respectively.)

By default the geometry and the topology is restored from the file. The file might contain more, especially it could provide normals or texture coordinates. We can examine the property bits after reading to find out what else is available:

                ropt.check(IO::Options::VertexNormal) 

If a property bit is set it does not mean, that it has been restored as well. The property must have been requested prior reading the file. (The demo program offers the command line option -Xv[nct] and -Xf[nc] to request vertex and face properties.)

Writing meshes

When writing the mesh the mode bits apparently control whether to use the binary variant and the desired byte-ordering. For example, if we choose binary mode and want to swap the byte order, we set

        wopt += IO::Options::Binary; 
        wopt += IO::Options::Swap; 

If the format does not specify the byte order the system byte order is used. If the format does not support binary storage, the mode bits are ignored.

If the format supports storing additional information, which are conform with the standard properties, we can use the property bits to tell the writer what we would like to have stored. If we would like to store the vertex normals we simply set

              wopt += IO::Options::VertexNormal; 

Finally we can write the data to the file

  if ( !IO::write_mesh( mesh, argv[optind+1], wopt ) )

The method returns false on error, which might have three different reasons:

  1. the option is not supported by the choosen format
  2. a selected standard property is not available
  3. a 'system' error like

The complete source looks like this:

#include <iostream>
#include <iterator>
// -------------------- OpenMesh
#include <OpenMesh/Core/IO/MeshIO.hh>
#include <OpenMesh/Core/Mesh/Types/TriMesh_ArrayKernelT.hh>
#include <OpenMesh/Tools/Utils/getopt.h>

// ----------------------------------------------------------------------------

using namespace OpenMesh;

// ----------------------------------------------------------------------------

typedef TriMesh_ArrayKernelT<>  MyMesh;

// ----------------------------------------------------------------------------

#define CHKROPT( Option ) \
  std::cout << "  provides " << #Option \
            << (ropt.check(IO::Options:: Option)?": yes\n":": no\n")

#define CHKWOPT( Option ) \
  std::cout << "  write " << #Option \
            << (wopt.check(IO::Options:: Option)?": yes\n":": no\n")

#define MESHOPT( msg, tf ) \
  std::cout << "  " << msg << ": " << ((tf)?"yes\n":"no\n")

// ----------------------------------------------------------------------------

void parse_commandline( int _argc, char **_argv, MyMesh& _mesh,
                        IO::Options &ropt, IO::Options &wopt );

void usage_and_exit(int xcode);

// ----------------------------------------------------------------------------

int main(int argc, char **argv)
{
  MyMesh  mesh;
  IO::Options ropt, wopt;

  // -------------------- evaluate commandline

  parse_commandline( argc, argv, mesh, ropt, wopt );

  // -------------------- read mesh

  if ( ! IO::read_mesh(mesh,argv[optind], ropt))
  {
    std::cerr << "Error loading mesh from file " << argv[optind] << std::endl;
    return 1;
  }

  // -------------------- show options

  std::cout << "File " << argv[optind] << std::endl;

  std::cout << "  is binary: " 
            << (ropt.check(IO::Options::Binary) ? " yes\n" : " no\n");

  std::cout << "  byte order: ";
  if (ropt.check(IO::Options::Swap))
    std::cout << "swapped\n";
  else if (ropt.check(IO::Options::LSB))
    std::cout << "little endian\n";
  else if (ropt.check(IO::Options::MSB))
    std::cout << "big endian\n";
  else
    std::cout << "don't care\n";
  
  std::cout << "  provides VertexNormal"
            << ( // strange layout for doxygen
                ropt.check(IO::Options::VertexNormal) 
                ? ": yes\n":": no\n");
  CHKROPT( VertexColor    );
  CHKROPT( VertexTexCoord );
  CHKROPT( FaceNormal     );
  CHKROPT( FaceColor      );


  // -------------------- mesh stats

  std::cout << "# Vertices: " << mesh.n_vertices() << std::endl;
  std::cout << "# Edges   : " << mesh.n_faces() << std::endl;
  std::cout << "# Faces   : " << mesh.n_faces() << std::endl;


  // -------------------- show write options

  std::cout << "Selected write options:\n";
  std::cout << "  use binary: " 
            << (wopt.check(IO::Options::Binary) ? " yes\n" : " no\n");

  std::cout << "  byte order: ";
  if (wopt.check(IO::Options::Swap))
    std::cout << "swapped\n";
  else if (wopt.check(IO::Options::LSB))
    std::cout << "little endian\n";
  else if (wopt.check(IO::Options::MSB))
    std::cout << "big endian\n";
  else
    std::cout << "don't care\n";
  
  std::cout << "  write VertexNormal"
            << (wopt.check(IO::Options::VertexNormal) ? ": yes\n":": no\n");
  CHKWOPT( VertexColor    );
  CHKWOPT( VertexTexCoord );
  CHKWOPT( FaceNormal     );
  CHKWOPT( FaceColor      );

  // -------------------- show mesh capabilities

  std::cout << "Mesh supports\n";
  MESHOPT("vertex normals", mesh.has_vertex_normals());
  MESHOPT("vertex colors", mesh.has_vertex_colors());
  MESHOPT("texcoords", mesh.has_vertex_texcoords2D());
  MESHOPT("face normals", mesh.has_face_normals());
  MESHOPT("face colors", mesh.has_face_colors());

  // -------------------- write mesh

  std::cout << "Write mesh to " << argv[optind+1] << "..";
  if ( !IO::write_mesh( mesh, argv[optind+1], wopt ) )
  {
    std::cerr << "Error" << std::endl;
    std::cerr << "Possible reasons:\n";
    std::cerr << "1. Chosen format cannot handle an option!\n";
    std::cerr << "2. Mesh does not provide necessary information!\n";
    std::cerr << "3. Or simply cannot open file for writing!\n";
    return 1;
  }
  else
    std::cout << "Ok.\n";

  return 0;
}

// ----------------------------------------------------------------------------

void parse_commandline( int _argc, char **_argv, MyMesh& _mesh,
                        IO::Options &ropt, IO::Options &wopt )
{
  int c;
  while ((c=getopt(_argc, _argv, "bhsBF:LMSV:X:"))!=-1)
  {
    switch(c) 
    {
      // -------------------- read options

      // force binary input
      case 'b': 
        ropt += IO::Options::Binary; 
        break;

      // force swapping the byte order, when reading a binary file
      case 's': 
        ropt += IO::Options::Swap; 
        break;

      // -------------------- write options

      // Write binary variant of format if possible
      case 'B': 
        wopt += IO::Options::Binary; 
        break;

      // 
      case 'F':
        for(size_t i=0; optarg[i]; ++i)
          switch(optarg[i]) {
            case 'n' : wopt += IO::Options::FaceNormal; break;
            case 'c' : wopt += IO::Options::FaceColor; break;
          }
        break;

      // Use little endian when writing binary data
      case 'L': 
        wopt += IO::Options::LSB; 
        break;

      // Use big endian when writing binary data
      case 'M': 
        wopt += IO::Options::MSB; 
        break;

      // Swap byte order when writing binary data
      case 'S': 
        wopt += IO::Options::Swap; 
        break;

      //
      case 'V':
      {
        for(size_t i=0; optarg[i]; ++i)
          switch(optarg[i]) {
            case 'n' : // dont't change layout!!
              wopt += IO::Options::VertexNormal; 
              break;
            case 't' : wopt += IO::Options::VertexTexCoord; break;
            case 'c' : wopt += IO::Options::VertexColor; break;
          }
        break;
      }

      // -------------------- request mesh' standard properties
      case 'X':
      {        
        char entity='\0';
        for(size_t i=0; optarg[i]; ++i)
          switch(optarg[i]) {
            case 'v': 
            case 'f': entity = optarg[i]; break;
            case 'n':
              switch(entity) {
                case 'v': _mesh.request_vertex_normals(); break;
                case 'f': _mesh.request_face_normals(); break;
              }
              break;
            case 'c':
              switch(entity) {
                case 'v': _mesh.request_vertex_colors(); break;
                case 'f': _mesh.request_face_colors(); break;
              }
              break;
            case 't':
              switch(entity) {
                case 'v': _mesh.request_vertex_texcoords2D(); break;
              }
              break;
          }
        break;
      }
      
      // -------------------- help
      case 'h':
        usage_and_exit(0);
      default:
        usage_and_exit(1);
    }
  }

  if ( _argc-optind != 2)
    usage_and_exit(1);
}


// ----------------------------------------------------------------------------

void usage_and_exit(int xcode)
{
  std::ostream &os = xcode ? std::cerr : std::cout;

  os << "Usage: io_options [Options] <input> <output>\n" 
     << std::endl;
  os << "  Read and write a mesh, using OpenMesh::IO::Options\n"
     << std::endl;
  os << "Options:\n"
     << std::endl;
  os << "a) read options\n"
     << std::endl
     << "  -b\n"
     << "\tAssume input file is a binary file\n"
     << std::endl
     << "  -s\n"
     << "\tSwap byte order when reading a binary file!\n"
     << std::endl;
  os << "b) write options\n"
     << std::endl
     << "  -B\n"
     << "\tWrite binary data\n"
     << std::endl
     << "  -S\n"
     << "\tSwap byte order, when writing binary data\n"
     << std::endl
     << "  -M/-L\n"
     << "\tUse MSB/LSB byte ordering, when writing binary data\n"
     << std::endl
     << "  -V{n|t|c}\n"
     << "\tWrite vertex normals, texcoords, and/or colors\n"
     << std::endl
     << "  -F{n|c}\n"
     << "\tWrite face normals, and/or colors\n"
     << std::endl;
  os << "c) Mesh properties\n"
     << std::endl
     << "  -Xv{n|c|t}\n"
     << "\tRequest vertex property normals|colors|texcoords\n"
     << std::endl
     << "  -Xf{n|c}\n"
     << "\tRequest face property normals|colors\n"
     << std::endl;
  exit(xcode);
}

// end of file
// ============================================================================

acg pic Project OpenMesh, ©  Computer Graphics Group, RWTH Aachen. Documentation generated using doxygen .