Exemplo n.º 1
0
#include <string>
#include <fstream>
#include <streambuf>

// libprotobuf
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#pragma GCC diagnostic ignored "-Wsign-conversion"
#include "vector_tile.pb.h"
#pragma GCC diagnostic pop

TEST_CASE("pbf vector tile input")
{
    unsigned tile_size = 4096;
    mapnik::Map map(256,256,"+init=epsg:3857");
    mapnik::layer lyr("layer",map.srs());
    lyr.set_datasource(testing::build_ds(0,0));
    map.add_layer(lyr);
    mapnik::vector_tile_impl::processor ren(map);
    mapnik::vector_tile_impl::tile out_tile = ren.create_tile(0,0,0,tile_size);
    CHECK(out_tile.is_painted() == true);
    CHECK(out_tile.is_empty() == false);
    vector_tile::Tile tile;
    tile.ParseFromString(out_tile.get_buffer());
    // serialize to message
    std::string buffer;
    CHECK(tile.SerializeToString(&buffer));
    CHECK(147 == buffer.size());
    // now create new objects
    mapnik::Map map2(256,256,"+init=epsg:3857");
    vector_tile::Tile tile2;
Exemplo n.º 2
0
int main ( int argc , char** argv)
{   
   //---------------------------------------------------------------------------
   // MPI Init
   //---------------------------------------------------------------------------
   int rank, totalnodes;

   MPI_Init(&argc, &argv);
   MPI_Comm_size(MPI_COMM_WORLD, &totalnodes); 
   MPI_Comm_rank(MPI_COMM_WORLD, &rank);

   

   //---------------------------------------------------------------------------
   // -- init default values
   minZoom = 1;
   maxZoom = 18;
   bUpdateMode = false;
   iX = -1;
   iY = -1;
   iZ = -1; 
   iN = -1;
   bounds[0] = -180.0;
   bounds[1] = -90.0;
   bounds[2] = 180.0;
   bounds[3] = 90.0;
   

   if (rank == 0)
   {
      std::cout << ">>> Generating map using mapnik <<<\n";
      po::options_description desc("Program-Options");
      desc.add_options()
         ("mapnik_dir", po::value<std::string>(), "mapnik path")
         ("map_file", po::value<std::string>(), "map configurations file")
         ("output_path", po::value<std::string>(), "output path")
         ("numthreads", po::value<int>(), "force number of threads")
         ("min_zoom", po::value<int>(), "[optional] min zoom level")
         ("max_zoom", po::value<int>(), "[optional] max zoom level")
         ("bounds", po::value<std::vector<double>>(), "[optional] boundaries (default: -180.0 -90.0 180.0 90.0)")
         ("mpi_queue_size", po::value<int>(), "[optional] mpi queue size (Default: 10000)")
         ("verbose", "[optional] Verbose mode")
         ("expired_list", po::value<std::string>(), "[optional] list of expired tiles for update rendering (global rendering will be disabled)")
         ;
   
      po::positional_options_description p;
      p.add("bounds", -1);
      po::variables_map vm;
      po::store(po::command_line_parser(argc, argv).options(desc).positional(p).run(), vm);
      po::notify(vm);

   

      //---------------------------------------------------------------------------
      // -- init options:
      boost::shared_ptr<ProcessingSettings> qSettings =  ProcessingUtils::LoadAppSettings();

      if (!qSettings)
      {
         std::cout << "Error in configuration! Check setup.xml\n";
         return MPI_Abort(MPI_COMM_WORLD, ERROR_PARAMS);
      }


      bool bError = false;
      //---------------------------------------------------------------------------
      // -- Read commandline
      try
      {
         po::store(po::parse_command_line(argc, argv, desc), vm);
         po::notify(vm);
      }
      catch (std::exception&)
      {
         bError = true;
      }
      
      if(vm.count("mapnik_dir"))
      {
        mapnik_dir = vm["mapnik_dir"].as<std::string>();
        if(!(mapnik_dir.at(mapnik_dir.length()-1) == '\\' || mapnik_dir.at(mapnik_dir.length()-1) == '/'))
           mapnik_dir = mapnik_dir + "/";
      }
      else
         bError = true;

      
      if(vm.count("map_file"))
         map_file = vm["map_file"].as<std::string>();
      else
         bError = true;

      
      if(vm.count("output_path"))
      {
         output_path = vm["output_path"].as<std::string>();
         if(!(output_path.at(output_path.length()-1) == '\\' || output_path.at(output_path.length()-1) == '/'))
           output_path = output_path + "/";
      }
      else
         bError = true;
      
      if(vm.count("min_zoom"))
         minZoom = vm["min_zoom"].as<int>();
      
      if(vm.count("max_zoom"))
         maxZoom = vm["max_zoom"].as<int>();

      if(vm.count("mpi_queue_size"))
         queueSize = vm["mpi_queue_size"].as<int>();

      if(vm.count("verbose"))
         bVerbose = true;

      if(vm.count("expire_list"))
      {
         expire_list = vm["expire_list"].as<std::string>();
         bUpdateMode = true;
      }
     

      // CH Bounds  double bounds[4] = {5.955870,46.818020,10.492030,47.808380}; 
      if(vm.count("bounds"))
      {
         std::vector<double> dv = vm["bounds"].as<std::vector<double>>();
         if(dv.size() != 4)
            bError = true;
         else
         {
            bounds[0] = dv[0]; bounds[1] = dv[1]; bounds[2] =dv [2]; bounds[3] = dv[3];
         }
      }
      std::cout << "Render boundaries: " << bounds[0] << ", " << bounds[1] << ", " << bounds[2] << ", " << bounds[3] << "\n";
      std::cout << "Render Map File: " << map_file << "\n";
      std::cout << "Min-Zoom: " << minZoom << "\n";
      std::cout << "Max-Zoom: " << maxZoom << "\n";
  
      if (vm.count("numthreads"))
      {
         int n = vm["numthreads"].as<int>();
         if (n>0 && n<65)
         {
            std::cout << "Forcing number of threads to " << n << " per node\n";
            omp_set_num_threads(n);
         }
      }

      if (bError)
      {
         std::cout << desc;
         return MPI_Abort(MPI_COMM_WORLD, ERROR_PARAMS);
      }
   }

   BroadcastString(output_path, 0);
   BroadcastString(mapnik_dir, 0);
   BroadcastString(map_file, 0);
   BroadcastDouble(bounds[0], 0);
   BroadcastDouble(bounds[1], 0);
   BroadcastDouble(bounds[2], 0);
   BroadcastDouble(bounds[3], 0);
   BroadcastInt(minZoom,0);
   BroadcastInt(maxZoom,0);
   BroadcastInt(iX,0);
   BroadcastInt(iY,0);
   BroadcastInt(iZ,0);
   BroadcastInt(iN,0);
   BroadcastInt(queueSize,0);
   BroadcastBool(bVerbose,0);
   BroadcastBool(bUpdateMode,0);

   MPIJobManager<SJob> jobmgr(queueSize);

   //---------------------------------------------------------------------------
   //-- MAPNIK RENDERING PROCESS --------
   //---------------------------------------------------------------------------
   using namespace mapnik;
   try
   {
      std::cout << "Generating tiles on rank " << rank << "...... \n" << std::flush;
      g_gProj = GoogleProjection(maxZoom);
      double dummy = 0.0;
   
      #ifdef _DEBUG
      std::string plugin_path = mapnik_dir + "input/debug/";
      std::cout << "..set plugin-path to "<<plugin_path<<"\n"<< std::flush;
      #else
      std::string plugin_path = mapnik_dir + "input/release/";   
      std::cout << "..set plugin-path to "<<plugin_path<<"\n"<< std::flush;
      #endif

      datasource_cache::instance()->register_datasources(plugin_path.c_str()); 
      std::string font_dir = mapnik_dir + "fonts/dejavu-fonts-ttf-2.30/ttf/";
      {
         std::cout << "..looking for DejaVuSans fonts in... " << font_dir << "\n"<< std::flush;
      }
      if (boost::filesystem3::exists( font_dir ) )
      {
         boost::filesystem3::directory_iterator end_itr; // default construction yields past-the-end
         for ( boost::filesystem3::directory_iterator itr( font_dir );
            itr != end_itr;
            ++itr )
         {
            if (!boost::filesystem3::is_directory(itr->status()) )
            {
               freetype_engine::register_font(itr->path().string());
            }
         }
         std::cout << "....Ok!\n" << std::flush;
      } else { std::cout << "....#Error# Font directory not found!\n" << std::flush; }
      //---------------------------------------------------------------------------
      // -- Generate map container
      g_map.set_background(color_factory::from_string("white"));
      std::cout << "..loading map file \"" << map_file << "\".....";
      load_map(g_map,map_file);
      std::cout << "....Ok!\n" << std::flush;

      g_mapnikProj = projection(g_map.srs());
      //---------------------------------------------------------------------------
      // -- Create outputpath
      if(!FileSystem::DirExists(output_path))
         FileSystem::makedir(output_path);
      bool bDone = false;
      //---------------------------------------------------------------------------
      // -- performance measurement
      int tileCount = 0;
      int currentJobQueueSize = 0;
      clock_t t_0, t_1;
      t_0 = clock();
      while (!bDone)
      {
         if (rank == 0)
         {
            std::vector<SJob> vJobs;
            GenerateRenderJobs(totalnodes*queueSize, vJobs);
            currentJobQueueSize = vJobs.size();
            tileCount += currentJobQueueSize;
            if (vJobs.size() == 0) // no more jobs
            {
               bDone = true;
               t_1 = clock();
               double time=(double(t_1-t_0)/double(CLOCKS_PER_SEC));
               double tps = tileCount/time;
               std::cout << ">>> Finished rendering " << tileCount << " tiles at " << tps << " tiles per second! TOTAL TIME: " << time << "<<<\n" << std::flush;
            }
            else
            {
               jobmgr.AddJobs(vJobs);
            }
         }
 
         MPI_Barrier(MPI_COMM_WORLD);
         BroadcastBool(bDone, 0);
         if (!bDone)
         {  
            clock_t t0,t1;
            t0 = clock();
            jobmgr.Process(jobCallback, bVerbose);
            t1 = clock();
            double tilesPerSecond = currentJobQueueSize/(double(t1-t0)/double(CLOCKS_PER_SEC));
         }
         else
         {
            MPI_Finalize();
         } 
      }
   }
   catch ( const mapnik::config_error & ex )
   {
      std::cout << "### Configuration ERROR: " << ex.what() << std::endl;
      return ERROR_CONFIG;
   }
   catch ( const std::exception & ex )
   {
      std::cout << "### std::exception: " << ex.what() << std::endl;
      return ERROR_MAPNIK;
   }
   catch ( ... )
   {
      std::cout << "### Unknown exception." << std::endl;
      return EXIT_FAILURE;
   }
   return EXIT_SUCCESS;
}