Ejemplo n.º 1
0
void OGR::writeDensity(hexer::HexGrid *grid)
{
    int counter(0);
    for (hexer::HexIter iter = grid->hexBegin(); iter != grid->hexEnd(); ++iter)
    {

        hexer::HexInfo hi = *iter;
        OGRGeometryH polygon = collectHexagon(hi, grid);
        OGRFeatureH hFeature;

        hFeature = OGR_F_Create(OGR_L_GetLayerDefn(m_layer));
        OGR_F_SetFieldInteger( hFeature, OGR_F_GetFieldIndex(hFeature, "ID"),
            counter);
        OGR_F_SetFieldInteger( hFeature, OGR_F_GetFieldIndex(hFeature, "COUNT"),
            hi.m_density);

        OGR_F_SetGeometry(hFeature, polygon);
        OGR_G_DestroyGeometry(polygon);

        if( OGR_L_CreateFeature( m_layer, hFeature ) != OGRERR_NONE )
        {
            std::ostringstream oss;
            oss << "Unable to create feature for multipolygon with error '"
                << CPLGetLastErrorMsg() << "'";
            throw pdal::pdal_error(oss.str());
        }
        OGR_F_Destroy( hFeature );
        counter++;
    }
}
Ejemplo n.º 2
0
    void object::test<6>()
    {
        // Create feature without geometry
        std::string tmp(data_tmp_);
        tmp += SEP;
        tmp += "tpoly.shp";
        OGRDataSourceH ds = OGR_Dr_Open(drv_, tmp.c_str(), true);
        ensure("Can't open layer", NULL != ds);

        OGRLayerH lyr = OGR_DS_GetLayer(ds, 0);
        ensure("Can't get layer", NULL != lyr);

        OGRFeatureDefnH featDefn = OGR_L_GetLayerDefn(lyr);
        ensure("Layer schema is NULL", NULL != featDefn);

        OGRFeatureH featNonSpatial = OGR_F_Create(featDefn);
        ensure("Can't create non-spatial feature", NULL != featNonSpatial);

        int fldIndex = OGR_FD_GetFieldIndex(featDefn, "PRFEDEA");
        ensure("Can't find field 'PRFEDEA'", fldIndex >= 0);

        OGR_F_SetFieldString(featNonSpatial, fldIndex, "nulled");
       
        OGRErr err = OGR_L_CreateFeature(lyr, featNonSpatial);
        ensure_equals("Can't write non-spatial feature to layer", OGRERR_NONE, err);

        OGR_F_Destroy(featNonSpatial);
        OGR_DS_Destroy(ds);
    }
Ejemplo n.º 3
0
void OGR::writeBoundary(hexer::HexGrid *grid)
{
    OGRGeometryH multi = OGR_G_CreateGeometry(wkbMultiPolygon);

    const std::vector<hexer::Path *>& paths = grid->rootPaths();
    for (auto pi = paths.begin(); pi != paths.end(); ++pi)
    {
        OGRGeometryH polygon = OGR_G_CreateGeometry(wkbPolygon);
        collectPath(*pi, polygon);

        if( OGR_G_AddGeometryDirectly(multi, polygon ) != OGRERR_NONE )
        {
            std::ostringstream oss;
            oss << "Unable to add polygon to multipolygon with error '"
                << CPLGetLastErrorMsg() << "'";
            throw pdal::pdal_error(oss.str());
        }
    }

    OGRFeatureH hFeature;

    hFeature = OGR_F_Create(OGR_L_GetLayerDefn(m_layer));
    OGR_F_SetFieldInteger( hFeature, OGR_F_GetFieldIndex(hFeature, "ID"), 0);

    OGR_F_SetGeometry(hFeature, multi);
    OGR_G_DestroyGeometry(multi);

    if( OGR_L_CreateFeature( m_layer, hFeature ) != OGRERR_NONE )
    {
        std::ostringstream oss;
        oss << "Unable to create feature for multipolygon with error '"
            << CPLGetLastErrorMsg() << "'";
        throw pdal::pdal_error(oss.str());
    }
    OGR_F_Destroy( hFeature );
}
GDALDataset *
RasterliteCreateCopy( const char * pszFilename, GDALDataset *poSrcDS, 
                       int bStrict, char ** papszOptions, 
                       GDALProgressFunc pfnProgress, void * pProgressData )
{
    int nBands = poSrcDS->GetRasterCount();
    if (nBands == 0)
    {
        CPLError(CE_Failure, CPLE_NotSupported, "nBands == 0");
        return NULL;
    }
    
    const char* pszDriverName = CSLFetchNameValueDef(papszOptions, "DRIVER", "GTiff");
    GDALDriverH hTileDriver = GDALGetDriverByName(pszDriverName);
    if ( hTileDriver == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot load GDAL %s driver", pszDriverName);
        return NULL;
    }
    
    GDALDriverH hMemDriver = GDALGetDriverByName("MEM");
    if (hMemDriver == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot load GDAL MEM driver");
        return NULL;
    }   

    int nXSize = GDALGetRasterXSize(poSrcDS);
    int nYSize = GDALGetRasterYSize(poSrcDS);
    
    double adfGeoTransform[6];
    if (poSrcDS->GetGeoTransform(adfGeoTransform) != CE_None)
    {
        adfGeoTransform[0] = 0;
        adfGeoTransform[1] = 1;
        adfGeoTransform[2] = 0;
        adfGeoTransform[3] = 0;
        adfGeoTransform[4] = 0;
        adfGeoTransform[5] = -1;
    }
    else if (adfGeoTransform[2] != 0.0 || adfGeoTransform[4] != 0.0)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot use geotransform with rotational terms");
        return NULL;
    }

    int bTiled = CSLTestBoolean(CSLFetchNameValueDef(papszOptions, "TILED", "YES"));
    int nBlockXSize, nBlockYSize;
    if (bTiled)
    {
        nBlockXSize = atoi(CSLFetchNameValueDef(papszOptions, "BLOCKXSIZE", "256"));
        nBlockYSize = atoi(CSLFetchNameValueDef(papszOptions, "BLOCKYSIZE", "256"));
        if (nBlockXSize < 64) nBlockXSize = 64;
        else if (nBlockXSize > 4096)  nBlockXSize = 4096;
        if (nBlockYSize < 64) nBlockYSize = 64;
        else if (nBlockYSize > 4096)  nBlockYSize = 4096;
    }
    else
    {
        nBlockXSize = nXSize;
        nBlockYSize = nYSize;
    }
    
/* -------------------------------------------------------------------- */
/*      Analyze arguments                                               */
/* -------------------------------------------------------------------- */
    
    CPLString osDBName;
    CPLString osTableName;
    VSIStatBuf sBuf;
    int bExists;

    /* Skip optionnal RASTERLITE: prefix */
    const char* pszFilenameWithoutPrefix = pszFilename;
    if (EQUALN(pszFilename, "RASTERLITE:", 11))
        pszFilenameWithoutPrefix += 11;
    
    char** papszTokens = CSLTokenizeStringComplex( 
                pszFilenameWithoutPrefix, ", ", FALSE, FALSE );
    int nTokens = CSLCount(papszTokens);
    if (nTokens == 0)
    {
        osDBName = pszFilenameWithoutPrefix;
        osTableName = CPLGetBasename(pszFilenameWithoutPrefix);
    }
    else
    {
        osDBName = papszTokens[0];
        
        int i;
        for(i=1;i<nTokens;i++)
        {
            if (EQUALN(papszTokens[i], "table=", 6))
                osTableName = papszTokens[i] + 6;
            else
            {
                CPLError(CE_Warning, CPLE_AppDefined,
                         "Invalid option : %s", papszTokens[i]);
            }
        }
    }
    
    CSLDestroy(papszTokens);
    papszTokens = NULL;
    
    bExists = (VSIStat(osDBName.c_str(), &sBuf) == 0);

    if (osTableName.size() == 0)
    {
        if (bExists)
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Database already exists. Explicit table name must be specified");
            return NULL;
        }
        osTableName = CPLGetBasename(osDBName.c_str());
    }    
    
    CPLString osRasterLayer;
    osRasterLayer.Printf("%s_rasters", osTableName.c_str());
    
    CPLString osMetatadataLayer;
    osMetatadataLayer.Printf("%s_metadata", osTableName.c_str());

/* -------------------------------------------------------------------- */
/*      Create or open the SQLite DB                                    */
/* -------------------------------------------------------------------- */
    
    if (OGRGetDriverCount() == 0)
        OGRRegisterAll();
        
    OGRSFDriverH hSQLiteDriver = OGRGetDriverByName("SQLite");
    if (hSQLiteDriver == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot load OGR SQLite driver");
        return NULL;
    }   
    
    OGRDataSourceH hDS;
    
    CPLString osOldVal =
        CPLGetConfigOption("SQLITE_LIST_ALL_TABLES", "FALSE");
    CPLSetConfigOption("SQLITE_LIST_ALL_TABLES", "TRUE");
    if (!bExists)
    {
        char** papszOGROptions = CSLAddString(NULL, "SPATIALITE=YES");
        hDS = OGR_Dr_CreateDataSource(hSQLiteDriver,
                                      osDBName.c_str(), papszOGROptions);
        CSLDestroy(papszOGROptions);
    }
    else
    {
        hDS = OGROpen(osDBName.c_str(), TRUE, NULL);
    }
    CPLSetConfigOption("SQLITE_LIST_ALL_TABLES", osOldVal.c_str());
    
    if (hDS == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Cannot load or create SQLite database");
        return NULL;
    }

    CPLString osSQL;
    
/* -------------------------------------------------------------------- */
/*      Get the SRID for the SRS                                        */
/* -------------------------------------------------------------------- */
    int nSRSId = RasterliteInsertSRID(hDS, poSrcDS->GetProjectionRef());

/* -------------------------------------------------------------------- */
/*      Create or wipe existing tables                                  */
/* -------------------------------------------------------------------- */
    int bWipeExistingData =
        CSLTestBoolean(CSLFetchNameValueDef(papszOptions, "WIPE", "NO"));
        
    hDS = RasterliteCreateTables(hDS, osTableName.c_str(),
                                 nSRSId, bWipeExistingData);
    if (hDS == NULL)
        return NULL;

    OGRLayerH hRasterLayer = OGR_DS_GetLayerByName(hDS, osRasterLayer.c_str());
    OGRLayerH hMetadataLayer = OGR_DS_GetLayerByName(hDS, osMetatadataLayer.c_str());
    if (hRasterLayer == NULL || hMetadataLayer == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Cannot find metadata and/or raster tables");
        OGRReleaseDataSource(hDS);
        return NULL;
    }

/* -------------------------------------------------------------------- */
/*      Check if there is overlapping data and warn the user            */
/* -------------------------------------------------------------------- */
    double minx = adfGeoTransform[0];
    double maxx = adfGeoTransform[0] + nXSize * adfGeoTransform[1];
    double maxy = adfGeoTransform[3];
    double miny = adfGeoTransform[3] + nYSize * adfGeoTransform[5];
    
    osSQL.Printf("SELECT COUNT(geometry) FROM \"%s\" "
                 "WHERE rowid IN "
                 "(SELECT pkid FROM \"idx_%s_metadata_geometry\" "
                  "WHERE xmin < %.15f AND xmax > %.15f "
                  "AND ymin < %.15f  AND ymax > %.15f) "
                 "AND pixel_x_size >= %.15f AND pixel_x_size <= %.15f AND "
                 "pixel_y_size >= %.15f AND pixel_y_size <= %.15f",
                  osMetatadataLayer.c_str(),
                  osTableName.c_str(),
                  maxx, minx, maxy, miny,
                  adfGeoTransform[1] - 1e-15, adfGeoTransform[1] + 1e-15,
                  - adfGeoTransform[5] - 1e-15, - adfGeoTransform[5] + 1e-15);
    
    int nOverlappingGeoms = 0;
    OGRLayerH hCountLyr = OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
    if (hCountLyr)
    {
        OGRFeatureH hFeat = OGR_L_GetNextFeature(hCountLyr);
        if (hFeat)
        {
            nOverlappingGeoms = OGR_F_GetFieldAsInteger(hFeat, 0);
            OGR_F_Destroy(hFeat);
        }
        OGR_DS_ReleaseResultSet(hDS, hCountLyr);
    }
    
    if (nOverlappingGeoms != 0)
    {
        CPLError(CE_Warning, CPLE_AppDefined,
                 "Raster tiles already exist in the %s table within "
                 "the extent of the data to be inserted in",
                 osTableName.c_str());
    }
   
/* -------------------------------------------------------------------- */
/*      Iterate over blocks to add data into raster and metadata tables */
/* -------------------------------------------------------------------- */
    int nXBlocks = (nXSize + nBlockXSize - 1) / nBlockXSize;
    int nYBlocks = (nYSize + nBlockYSize - 1) / nBlockYSize;

    GDALDataType eDataType = poSrcDS->GetRasterBand(1)->GetRasterDataType();
    int nDataTypeSize = GDALGetDataTypeSize(eDataType) / 8;
    GByte* pabyMEMDSBuffer =
        (GByte*)VSIMalloc3(nBlockXSize, nBlockYSize, nBands * nDataTypeSize);
    if (pabyMEMDSBuffer == NULL)
    {
        OGRReleaseDataSource(hDS);
        return NULL;
    }
    
    CPLString osTempFileName;
    osTempFileName.Printf("/vsimem/%p", hDS);
    
    int nTileId = 0;
    int nBlocks = 0;
    int nTotalBlocks = nXBlocks * nYBlocks;

    char** papszTileDriverOptions = RasterliteGetTileDriverOptions(papszOptions);
    
    OGR_DS_ExecuteSQL(hDS, "BEGIN", NULL, NULL);
    
    CPLErr eErr = CE_None;
    int nBlockXOff, nBlockYOff;
    for(nBlockYOff=0;eErr == CE_None && nBlockYOff<nYBlocks;nBlockYOff++)
    {
        for(nBlockXOff=0;eErr == CE_None && nBlockXOff<nXBlocks;nBlockXOff++)
        {
/* -------------------------------------------------------------------- */
/*      Create in-memory tile                                           */
/* -------------------------------------------------------------------- */
            int nReqXSize = nBlockXSize, nReqYSize = nBlockYSize;
            if ((nBlockXOff+1) * nBlockXSize > nXSize)
                nReqXSize = nXSize - nBlockXOff * nBlockXSize;
            if ((nBlockYOff+1) * nBlockYSize > nYSize)
                nReqYSize = nYSize - nBlockYOff * nBlockYSize;

            eErr = poSrcDS->RasterIO(GF_Read,
                                     nBlockXOff * nBlockXSize,
                                     nBlockYOff * nBlockYSize,
                                     nReqXSize, nReqYSize,
                                     pabyMEMDSBuffer, nReqXSize, nReqYSize,
                                     eDataType, nBands, NULL,
                                     0, 0, 0);
            if (eErr != CE_None)
            {
                break;
            }
            
            GDALDatasetH hMemDS = GDALCreate(hMemDriver, "MEM:::",
                                              nReqXSize, nReqYSize, 0, 
                                              eDataType, NULL);
            if (hMemDS == NULL)
            {
                eErr = CE_Failure;
                break;
            }
            
            int iBand;
            for(iBand = 0; iBand < nBands; iBand ++)
            {
                char** papszMEMDSOptions = NULL;
                char szTmp[64];
                memset(szTmp, 0, sizeof(szTmp));
                CPLPrintPointer(szTmp,
                                pabyMEMDSBuffer + iBand * nDataTypeSize *
                                nReqXSize * nReqYSize, sizeof(szTmp));
                papszMEMDSOptions = CSLSetNameValue(papszMEMDSOptions, "DATAPOINTER", szTmp);
                GDALAddBand(hMemDS, eDataType, papszMEMDSOptions);
                CSLDestroy(papszMEMDSOptions);
            }
            
            GDALDatasetH hOutDS = GDALCreateCopy(hTileDriver,
                                        osTempFileName.c_str(), hMemDS, FALSE,
                                        papszTileDriverOptions, NULL, NULL);

            GDALClose(hMemDS);
            if (hOutDS)
                GDALClose(hOutDS);
            else
            {
                eErr = CE_Failure;
                break;
            }

/* -------------------------------------------------------------------- */
/*      Insert new entry into raster table                              */
/* -------------------------------------------------------------------- */

            vsi_l_offset nDataLength;
            GByte *pabyData = VSIGetMemFileBuffer( osTempFileName.c_str(),
                                                   &nDataLength, FALSE);

            OGRFeatureH hFeat = OGR_F_Create( OGR_L_GetLayerDefn(hRasterLayer) );
            OGR_F_SetFieldBinary(hFeat, 0, (int)nDataLength, pabyData);
            
            OGR_L_CreateFeature(hRasterLayer, hFeat);
            /* Query raster ID to set it as the ID of the associated metadata */
            int nRasterID = (int)OGR_F_GetFID(hFeat);
            
            OGR_F_Destroy(hFeat);
            
            VSIUnlink(osTempFileName.c_str());
            
/* -------------------------------------------------------------------- */
/*      Insert new entry into metadata table                            */
/* -------------------------------------------------------------------- */
            
            hFeat = OGR_F_Create( OGR_L_GetLayerDefn(hMetadataLayer) );
            OGR_F_SetFID(hFeat, nRasterID);
            OGR_F_SetFieldString(hFeat, 0, GDALGetDescription(poSrcDS));
            OGR_F_SetFieldInteger(hFeat, 1, nTileId ++);
            OGR_F_SetFieldInteger(hFeat, 2, nReqXSize);
            OGR_F_SetFieldInteger(hFeat, 3, nReqYSize);
            OGR_F_SetFieldDouble(hFeat, 4, adfGeoTransform[1]);
            OGR_F_SetFieldDouble(hFeat, 5, -adfGeoTransform[5]);
            
            minx = adfGeoTransform[0] +
                (nBlockXSize * nBlockXOff) * adfGeoTransform[1];
            maxx = adfGeoTransform[0] +
                (nBlockXSize * nBlockXOff + nReqXSize) * adfGeoTransform[1];
            maxy = adfGeoTransform[3] +
                (nBlockYSize * nBlockYOff) * adfGeoTransform[5];
            miny = adfGeoTransform[3] +
                (nBlockYSize * nBlockYOff + nReqYSize) * adfGeoTransform[5];
            
            OGRGeometryH hRectangle = OGR_G_CreateGeometry(wkbPolygon);
            OGRGeometryH hLinearRing = OGR_G_CreateGeometry(wkbLinearRing);
            OGR_G_AddPoint_2D(hLinearRing, minx, miny);
            OGR_G_AddPoint_2D(hLinearRing, minx, maxy);
            OGR_G_AddPoint_2D(hLinearRing, maxx, maxy);
            OGR_G_AddPoint_2D(hLinearRing, maxx, miny);
            OGR_G_AddPoint_2D(hLinearRing, minx, miny);
            OGR_G_AddGeometryDirectly(hRectangle, hLinearRing);
            
            OGR_F_SetGeometryDirectly(hFeat, hRectangle);
            
            OGR_L_CreateFeature(hMetadataLayer, hFeat);
            OGR_F_Destroy(hFeat);
            
            nBlocks++;
            if (pfnProgress && !pfnProgress(1.0 * nBlocks / nTotalBlocks,
                                            NULL, pProgressData))
                eErr = CE_Failure;
        }
    }
    
    if (eErr == CE_None)
        OGR_DS_ExecuteSQL(hDS, "COMMIT", NULL, NULL);
    else
        OGR_DS_ExecuteSQL(hDS, "ROLLBACK", NULL, NULL);
    
    CSLDestroy(papszTileDriverOptions);
    
    VSIFree(pabyMEMDSBuffer);
    
    OGRReleaseDataSource(hDS);
        
    return (GDALDataset*) GDALOpen(pszFilename, GA_Update);
}
Ejemplo n.º 5
0
int main(int argc, char* argv[])
{
    int rc = 0;

#ifdef HAVE_GDAL
    try
    {
        ::OGRRegisterAll();

        // Parse command-line options
        std::string in_file;
        std::string out_file;
        std::string out_frmt;
        {
            int on_arg = 1;
            while (on_arg < argc)
            {
                std::string arg(argv[on_arg]);
                if (arg == "-h")
                {
                    usage();
                    return 0;
                }
                else if (arg == "-formats")
                {
                    report_ogr_formats(std::cout);
                    return 0;
                }
                else if (arg == "-i" && (on_arg + 1 < argc))
                {
                    ++on_arg;
                    assert(on_arg < argc);
                    in_file = argv[on_arg];
                }
                else if (arg == "-o" && (on_arg + 1 < argc))
                {
                    ++on_arg;
                    assert(on_arg < argc);
                    out_file = argv[on_arg];
                    out_frmt = "ESRI Shapefile"; // default output format
                }
                else if (arg == "-f" && (on_arg + 1 < argc))
                {
                    ++on_arg;
                    assert(on_arg < argc);
                    out_frmt = argv[on_arg];
                }
                else
                {
                    throw std::runtime_error(std::string("unrecognized parameter: ") + arg);
                }
                ++on_arg;
            }

            if (in_file.empty() || out_file.empty() || out_frmt.empty())
            {
                throw std::runtime_error("missing input paremeters");
            }
        }

        //
        // Source
        //
        std::cout << "Source:" << "\n - dataset: " << in_file << std::endl;

        std::ifstream ifs;
        if (!liblas::Open(ifs, in_file.c_str()))
        {
            throw std::runtime_error(std::string("Can not open \'") + in_file + "\'");
        }
        liblas::Reader reader(ifs);

        //
        // Target
        //
        std::string const lyrname(out_file.substr(0, out_file.find_last_of('.')));

        std::cout << "Target:"
                  << "\n - format: " << out_frmt
                  << "\n - dataset: " << out_file
                  << "\n - layer: " << lyrname
                  << std::endl;

        OGRSFDriverH drv = OGRGetDriverByName(out_frmt.c_str());
        if (0 == drv)
        {
            throw std::runtime_error(out_frmt + " driver not available");
        }

        ogr_wrapper<OGRDataSourceH> ds(OGR_Dr_CreateDataSource(drv, out_file.c_str(), 0), OGR_DS_Destroy);
        if (0 == ds.get())
        {
            throw std::runtime_error(out_file + " datasource creation failed");
        }

        OGRLayerH lyr = OGR_DS_CreateLayer(ds, lyrname.c_str(), 0, wkbPoint25D, 0);
        if (0 == lyr)
        {
            throw std::runtime_error(out_file + " layer creation failed");
        }

        // Prepare layer schema
        create_layer_def(lyr);

        //
        // Translation of points cloud to features set
        //
        boost::uint32_t i = 0;
        boost::uint32_t const size = reader.GetHeader().GetPointRecordsCount();

        std::cout << "Translating " << size << " points:\n";

        ogr_wrapper<OGRFeatureH> feat(OGR_F_Create(OGR_L_GetLayerDefn(lyr)), OGR_F_Destroy);

        while (reader.ReadNextPoint())
        {
            liblas::Point const& p = reader.GetPoint();

            OGR_F_SetFieldInteger(feat, 0, p.GetReturnNumber());
            OGR_F_SetFieldInteger(feat, 1, p.GetScanAngleRank());
            OGR_F_SetFieldInteger(feat, 2, p.GetIntensity());

            std::ostringstream os;
            os << p.GetClassification();
            OGR_F_SetFieldString(feat, 3, os.str().c_str());

            OGR_F_SetFieldInteger(feat, 4, p.GetNumberOfReturns());
            OGR_F_SetFieldDouble(feat, 5, p.GetTime());

            ogr_wrapper<OGRGeometryH> geom(OGR_G_CreateGeometry(wkbPoint25D), OGR_G_DestroyGeometry);
            OGR_G_SetPoint(geom, 0, p.GetX(), p.GetY(), p.GetZ());
            if (OGRERR_NONE != OGR_F_SetGeometry(feat, geom))
            {
                throw std::runtime_error("geometry creation failed");
            }

            if (OGRERR_NONE != OGR_L_CreateFeature(lyr, feat))
            {
                throw std::runtime_error("feature creation failed");
            }

            term_progress(std::cout, (i + 1) / static_cast<double>(size));
            i++;
        }

        std::cout << std::endl;
    }
    catch (std::exception const& e)
    {
        std::cerr << "Error: " << e.what() << std::endl;
        rc = -1;
    }
    catch (...)
    {
        std::cerr << "Unknown error\n";
        rc = -1;
    }
#else
    std::cout << "Missing GDAL/OGR support built-in las2ogr. Aborted." << std::endl;
#endif // #ifdef HAVE_GDAL

    ::OGRCleanupAll();
    return rc;
}
Ejemplo n.º 6
0
MAIN_START(argc, argv)
{
    // Check that we are running against at least GDAL 1.4.
    // Note to developers: if we use newer API, please change the requirement.
    if( atoi(GDALVersionInfo("VERSION_NUM")) < 1400 )
    {
        fprintf(stderr,
                "At least, GDAL >= 1.4.0 is required for this version of %s, "
                "which was compiled against GDAL %s\n",
                argv[0], GDAL_RELEASE_NAME);
        exit(1);
    }

    GDALAllRegister();
    OGRRegisterAll();

    argc = GDALGeneralCmdLineProcessor( argc, &argv, 0 );
    if( argc < 1 )
        exit( -argc );

/* -------------------------------------------------------------------- */
/*      Get commandline arguments other than the GDAL raster filenames. */
/* -------------------------------------------------------------------- */
    const char* pszIndexLayerName = nullptr;
    const char *index_filename = nullptr;
    const char *tile_index = "location";
    const char* pszDriverName = nullptr;
    size_t nMaxFieldSize = 254;
    bool write_absolute_path = false;
    char* current_path = nullptr;
    bool skip_different_projection = false;
    const char *pszTargetSRS = "";
    bool bSetTargetSRS = false;
    const char* pszSrcSRSName = nullptr;
    int i_SrcSRSName = -1;
    bool bSrcSRSFormatSpecified = false;
    SrcSRSFormat eSrcSRSFormat = FORMAT_AUTO;

    int iArg = 1;  // Used after for.
    for( ; iArg < argc; iArg++ )
    {
        if( EQUAL(argv[iArg], "--utility_version") )
        {
            printf("%s was compiled against GDAL %s and is running against "
                   "GDAL %s\n",
                   argv[0], GDAL_RELEASE_NAME, GDALVersionInfo("RELEASE_NAME"));
            CSLDestroy( argv );
            return 0;
        }
        else if( EQUAL(argv[iArg],"--help") )
            Usage(nullptr);
        else if( (strcmp(argv[iArg],"-f") == 0 || strcmp(argv[iArg],"-of") == 0) )
        {
            CHECK_HAS_ENOUGH_ADDITIONAL_ARGS(1);
            pszDriverName = argv[++iArg];
        }
        else if( strcmp(argv[iArg],"-lyr_name") == 0 )
        {
            CHECK_HAS_ENOUGH_ADDITIONAL_ARGS(1);
            pszIndexLayerName = argv[++iArg];
        }
        else if( strcmp(argv[iArg],"-tileindex") == 0 )
        {
            CHECK_HAS_ENOUGH_ADDITIONAL_ARGS(1);
            tile_index = argv[++iArg];
        }
        else if( strcmp(argv[iArg],"-t_srs") == 0 )
        {
            CHECK_HAS_ENOUGH_ADDITIONAL_ARGS(1);
            pszTargetSRS = argv[++iArg];
            bSetTargetSRS = true;
        }
        else if ( strcmp(argv[iArg],"-write_absolute_path") == 0 )
        {
            write_absolute_path = true;
        }
        else if ( strcmp(argv[iArg],"-skip_different_projection") == 0 )
        {
            skip_different_projection = true;
        }
        else if( strcmp(argv[iArg], "-src_srs_name") == 0 )
        {
            CHECK_HAS_ENOUGH_ADDITIONAL_ARGS(1);
            pszSrcSRSName = argv[++iArg];
        }
        else if( strcmp(argv[iArg], "-src_srs_format") == 0 )
        {
            const char* pszFormat;
            bSrcSRSFormatSpecified = true;
            CHECK_HAS_ENOUGH_ADDITIONAL_ARGS(1);
            pszFormat = argv[++iArg];
            if( EQUAL(pszFormat, "AUTO") )
                eSrcSRSFormat = FORMAT_AUTO;
            else if( EQUAL(pszFormat, "WKT") )
                eSrcSRSFormat = FORMAT_WKT;
            else if( EQUAL(pszFormat, "EPSG") )
                eSrcSRSFormat = FORMAT_EPSG;
            else if( EQUAL(pszFormat, "PROJ") )
                eSrcSRSFormat = FORMAT_PROJ;
        }
        else if( argv[iArg][0] == '-' )
            Usage(CPLSPrintf("Unknown option name '%s'", argv[iArg]));
        else if( index_filename == nullptr )
        {
            index_filename = argv[iArg];
            iArg++;
            break;
        }
    }

    if( index_filename == nullptr )
        Usage("No index filename specified.");
    if( iArg == argc )
        Usage("No file to index specified.");
    if( bSrcSRSFormatSpecified && pszSrcSRSName == nullptr )
        Usage("-src_srs_name must be specified when -src_srs_format is "
              "specified.");

/* -------------------------------------------------------------------- */
/*      Create and validate target SRS if given.                        */
/* -------------------------------------------------------------------- */
    OGRSpatialReferenceH hTargetSRS = nullptr;
    if( bSetTargetSRS )
    {
        if( skip_different_projection )
        {
            fprintf( stderr,
                     "Warning : -skip_different_projection does not apply "
                     "when -t_srs is requested.\n" );
        }
        hTargetSRS = OSRNewSpatialReference("");
        OSRSetAxisMappingStrategy(hTargetSRS, OAMS_TRADITIONAL_GIS_ORDER);
        // coverity[tainted_data]
        if( OSRSetFromUserInput( hTargetSRS, pszTargetSRS ) != CE_None )
        {
            OSRDestroySpatialReference( hTargetSRS );
            fprintf( stderr, "Invalid target SRS `%s'.\n",
                     pszTargetSRS );
            exit(1);
        }
    }

/* -------------------------------------------------------------------- */
/*      Open or create the target datasource                            */
/* -------------------------------------------------------------------- */
    GDALDatasetH hTileIndexDS = GDALOpenEx(
        index_filename, GDAL_OF_VECTOR | GDAL_OF_UPDATE, nullptr, nullptr, nullptr );
    OGRLayerH hLayer = nullptr;
    CPLString osFormat;
    if( hTileIndexDS != nullptr )
    {
        GDALDriverH hDriver = GDALGetDatasetDriver(hTileIndexDS);
        if( hDriver )
            osFormat = GDALGetDriverShortName(hDriver);

        if( GDALDatasetGetLayerCount(hTileIndexDS) == 1 )
        {
            hLayer = GDALDatasetGetLayer(hTileIndexDS, 0);
        }
        else
        {
            if( pszIndexLayerName == nullptr )
            {
                printf( "-lyr_name must be specified.\n" );
                exit( 1 );
            }
            CPLPushErrorHandler(CPLQuietErrorHandler);
            hLayer = GDALDatasetGetLayerByName(hTileIndexDS, pszIndexLayerName);
            CPLPopErrorHandler();
        }
    }
    else
    {
        printf( "Creating new index file...\n" );
        if( pszDriverName == nullptr )
        {
            std::vector<CPLString> aoDrivers =
                GetOutputDriversFor(index_filename, GDAL_OF_VECTOR);
            if( aoDrivers.empty() )
            {
                CPLError( CE_Failure, CPLE_AppDefined,
                        "Cannot guess driver for %s", index_filename);
                exit( 10 );
            }
            else
            {
                if( aoDrivers.size() > 1 )
                {
                    CPLError( CE_Warning, CPLE_AppDefined,
                            "Several drivers matching %s extension. Using %s",
                            CPLGetExtension(index_filename), aoDrivers[0].c_str() );
                }
                osFormat = aoDrivers[0];
            }
        }
        else
        {
            osFormat = pszDriverName;
        }
        if( !EQUAL(osFormat, "ESRI Shapefile") )
            nMaxFieldSize = 0;


        GDALDriverH hDriver = GDALGetDriverByName( osFormat.c_str() );
        if( hDriver == nullptr )
        {
            printf( "%s driver not available.\n", osFormat.c_str() );
            exit( 1 );
        }

        hTileIndexDS = 
            GDALCreate( hDriver, index_filename, 0, 0, 0, GDT_Unknown, nullptr );
    }

    if( hTileIndexDS != nullptr && hLayer == nullptr )
    {
        OGRSpatialReferenceH hSpatialRef = nullptr;
        char* pszLayerName = nullptr;
        if( pszIndexLayerName == nullptr )
        {
            VSIStatBuf sStat;
            if( EQUAL(osFormat, "ESRI Shapefile") ||
                VSIStat(index_filename, &sStat) == 0 )
            {
                pszLayerName = CPLStrdup(CPLGetBasename(index_filename));
            }
            else
            {
                printf( "-lyr_name must be specified.\n" );
                exit( 1 );
            }
        }
        else
        {
            pszLayerName = CPLStrdup(pszIndexLayerName);
        }

        /* get spatial reference for output file from target SRS (if set) */
        /* or from first input file */
        if( bSetTargetSRS )
        {
            hSpatialRef = OSRClone( hTargetSRS );
        }
        else
        {
            GDALDatasetH hDS = GDALOpen( argv[iArg], GA_ReadOnly );
            if( hDS )
            {
                const char* pszWKT = GDALGetProjectionRef(hDS);
                if (pszWKT != nullptr && pszWKT[0] != '\0')
                {
                    hSpatialRef = OSRNewSpatialReference(pszWKT);
                    OSRSetAxisMappingStrategy(hSpatialRef, OAMS_TRADITIONAL_GIS_ORDER);
                }
                GDALClose(hDS);
            }
        }

        hLayer =
            GDALDatasetCreateLayer( hTileIndexDS, pszLayerName, hSpatialRef,
                                wkbPolygon, nullptr );
        CPLFree(pszLayerName);
        if( hSpatialRef )
            OSRRelease(hSpatialRef);

        if( hLayer )
        {
            OGRFieldDefnH hFieldDefn = OGR_Fld_Create( tile_index, OFTString );
            if( nMaxFieldSize )
                OGR_Fld_SetWidth( hFieldDefn, static_cast<int>(nMaxFieldSize));
            OGR_L_CreateField( hLayer, hFieldDefn, TRUE );
            OGR_Fld_Destroy(hFieldDefn);
            if( pszSrcSRSName != nullptr )
            {
                hFieldDefn = OGR_Fld_Create( pszSrcSRSName, OFTString );
                if( nMaxFieldSize )
                    OGR_Fld_SetWidth(hFieldDefn,
                                     static_cast<int>(nMaxFieldSize));
                OGR_L_CreateField( hLayer, hFieldDefn, TRUE );
                OGR_Fld_Destroy(hFieldDefn);
            }
        }
    }

    if( hTileIndexDS == nullptr || hLayer == nullptr )
    {
        fprintf( stderr, "Unable to open/create shapefile `%s'.\n",
                 index_filename );
        exit(2);
    }

    OGRFeatureDefnH hFDefn = OGR_L_GetLayerDefn(hLayer);

    const int ti_field = OGR_FD_GetFieldIndex( hFDefn, tile_index );
    if( ti_field < 0 )
    {
        fprintf( stderr, "Unable to find field `%s' in file `%s'.\n",
                 tile_index, index_filename );
        exit(2);
    }

    if( pszSrcSRSName != nullptr )
        i_SrcSRSName = OGR_FD_GetFieldIndex( hFDefn, pszSrcSRSName );

    // Load in memory existing file names in SHP.
    int nExistingFiles = static_cast<int>(OGR_L_GetFeatureCount(hLayer, FALSE));
    if( nExistingFiles < 0)
        nExistingFiles = 0;

    char** existingFilesTab = nullptr;
    bool alreadyExistingProjectionRefValid = false;
    char* alreadyExistingProjectionRef = nullptr;
    if( nExistingFiles > 0 )
    {
        OGRFeatureH hFeature = nullptr;
        existingFilesTab = static_cast<char **>(
            CPLMalloc(nExistingFiles * sizeof(char*)));
        for( int i = 0; i < nExistingFiles; i++ )
        {
            hFeature = OGR_L_GetNextFeature(hLayer);
            existingFilesTab[i] =
                CPLStrdup(OGR_F_GetFieldAsString( hFeature, ti_field ));
            if( i == 0 )
            {
                GDALDatasetH hDS = GDALOpen(existingFilesTab[i], GA_ReadOnly );
                if( hDS )
                {
                    alreadyExistingProjectionRefValid = true;
                    alreadyExistingProjectionRef =
                        CPLStrdup(GDALGetProjectionRef(hDS));
                    GDALClose(hDS);
                }
            }
            OGR_F_Destroy( hFeature );
        }
    }

    if( write_absolute_path )
    {
        current_path = CPLGetCurrentDir();
        if (current_path == nullptr)
        {
            fprintf( stderr,
                     "This system does not support the CPLGetCurrentDir call. "
                     "The option -write_absolute_path will have no effect\n" );
            write_absolute_path = FALSE;
        }
    }

/* -------------------------------------------------------------------- */
/*      loop over GDAL files, processing.                               */
/* -------------------------------------------------------------------- */
    for( ; iArg < argc; iArg++ )
    {
        char *fileNameToWrite = nullptr;
        VSIStatBuf sStatBuf;

        // Make sure it is a file before building absolute path name.
        if( write_absolute_path && CPLIsFilenameRelative( argv[iArg] ) &&
            VSIStat( argv[iArg], &sStatBuf ) == 0 )
        {
            fileNameToWrite =
                CPLStrdup(CPLProjectRelativeFilename(current_path, argv[iArg]));
        }
        else
        {
            fileNameToWrite = CPLStrdup(argv[iArg]);
        }

        // Checks that file is not already in tileindex.
        {
            int i = 0;  // Used after for.
            for( ; i < nExistingFiles; i++ )
            {
                if (EQUAL(fileNameToWrite, existingFilesTab[i]))
                {
                    fprintf(stderr,
                            "File %s is already in tileindex. Skipping it.\n",
                            fileNameToWrite);
                    break;
                }
            }
            if (i != nExistingFiles)
            {
                CPLFree(fileNameToWrite);
                continue;
            }
        }

        GDALDatasetH hDS = GDALOpen( argv[iArg], GA_ReadOnly );
        if( hDS == nullptr )
        {
            fprintf( stderr, "Unable to open %s, skipping.\n",
                     argv[iArg] );
            CPLFree(fileNameToWrite);
            continue;
        }

        double adfGeoTransform[6] = { 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 };
        GDALGetGeoTransform( hDS, adfGeoTransform );
        if( adfGeoTransform[0] == 0.0
            && adfGeoTransform[1] == 1.0
            && adfGeoTransform[3] == 0.0
            && std::abs(adfGeoTransform[5]) == 1.0 )
        {
            fprintf( stderr,
                     "It appears no georeferencing is available for\n"
                     "`%s', skipping.\n",
                     argv[iArg] );
            GDALClose( hDS );
            CPLFree(fileNameToWrite);
            continue;
        }

        const char *projectionRef = GDALGetProjectionRef(hDS);

        // If not set target srs, test that the current file uses same
        // projection as others.
        if( !bSetTargetSRS )
        {
            if( alreadyExistingProjectionRefValid )
            {
                int projectionRefNotNull, alreadyExistingProjectionRefNotNull;
                projectionRefNotNull = projectionRef && projectionRef[0];
                alreadyExistingProjectionRefNotNull =
                    alreadyExistingProjectionRef &&
                    alreadyExistingProjectionRef[0];
                if ((projectionRefNotNull &&
                     alreadyExistingProjectionRefNotNull &&
                     EQUAL(projectionRef, alreadyExistingProjectionRef) == 0) ||
                    (projectionRefNotNull != alreadyExistingProjectionRefNotNull))
                {
                    fprintf(
                        stderr,
                        "Warning : %s is not using the same projection system "
                        "as other files in the tileindex.\n"
                        "This may cause problems when using it in MapServer "
                        "for example.\n"
                        "Use -t_srs option to set target projection system "
                        "(not supported by MapServer).\n"
                        "%s\n", argv[iArg],
                        skip_different_projection ? "Skipping this file." : "");
                    if( skip_different_projection )
                    {
                        CPLFree(fileNameToWrite);
                        GDALClose( hDS );
                        continue;
                    }
                }
            }
            else
            {
                alreadyExistingProjectionRefValid = true;
                alreadyExistingProjectionRef = CPLStrdup(projectionRef);
            }
        }

        const int nXSize = GDALGetRasterXSize( hDS );
        const int nYSize = GDALGetRasterYSize( hDS );

        double adfX[5] = { 0.0, 0.0, 0.0, 0.0, 0.0 };
        double adfY[5] = { 0.0, 0.0, 0.0, 0.0, 0.0 };
        adfX[0] = adfGeoTransform[0]
            + 0 * adfGeoTransform[1]
            + 0 * adfGeoTransform[2];
        adfY[0] = adfGeoTransform[3]
            + 0 * adfGeoTransform[4]
            + 0 * adfGeoTransform[5];

        adfX[1] = adfGeoTransform[0]
            + nXSize * adfGeoTransform[1]
            + 0 * adfGeoTransform[2];
        adfY[1] = adfGeoTransform[3]
            + nXSize * adfGeoTransform[4]
            + 0 * adfGeoTransform[5];

        adfX[2] = adfGeoTransform[0]
            + nXSize * adfGeoTransform[1]
            + nYSize * adfGeoTransform[2];
        adfY[2] = adfGeoTransform[3]
            + nXSize * adfGeoTransform[4]
            + nYSize * adfGeoTransform[5];

        adfX[3] = adfGeoTransform[0]
            + 0 * adfGeoTransform[1]
            + nYSize * adfGeoTransform[2];
        adfY[3] = adfGeoTransform[3]
            + 0 * adfGeoTransform[4]
            + nYSize * adfGeoTransform[5];

        adfX[4] = adfGeoTransform[0]
            + 0 * adfGeoTransform[1]
            + 0 * adfGeoTransform[2];
        adfY[4] = adfGeoTransform[3]
            + 0 * adfGeoTransform[4]
            + 0 * adfGeoTransform[5];

        OGRSpatialReferenceH hSourceSRS = nullptr;
        if( (bSetTargetSRS || i_SrcSRSName >= 0) &&
            projectionRef != nullptr &&
            projectionRef[0] != '\0' )
        {
            hSourceSRS = OSRNewSpatialReference( projectionRef );
            OSRSetAxisMappingStrategy(hSourceSRS, OAMS_TRADITIONAL_GIS_ORDER);
        }

        // If set target srs, do the forward transformation of all points.
        if( bSetTargetSRS && projectionRef != nullptr && projectionRef[0] != '\0' )
        {
            OGRCoordinateTransformationH hCT = nullptr;
            if( hSourceSRS && !OSRIsSame( hSourceSRS, hTargetSRS ) )
            {
                hCT = OCTNewCoordinateTransformation( hSourceSRS, hTargetSRS );
                if( hCT == nullptr || !OCTTransform( hCT, 5, adfX, adfY, nullptr ) )
                {
                    fprintf(
                        stderr,
                        "Warning : unable to transform points from source "
                        "SRS `%s' to target SRS `%s'\n"
                        "for file `%s' - file skipped\n",
                        projectionRef, pszTargetSRS, fileNameToWrite );
                    if( hCT )
                        OCTDestroyCoordinateTransformation( hCT );
                    if( hSourceSRS )
                        OSRDestroySpatialReference( hSourceSRS );
                    continue;
                }
                if( hCT )
                    OCTDestroyCoordinateTransformation( hCT );
            }
        }

        OGRFeatureH hFeature = OGR_F_Create( OGR_L_GetLayerDefn( hLayer ) );
        OGR_F_SetFieldString( hFeature, ti_field, fileNameToWrite );

        if( i_SrcSRSName >= 0 && hSourceSRS != nullptr )
        {
            const char* pszAuthorityCode =
                OSRGetAuthorityCode(hSourceSRS, nullptr);
            const char* pszAuthorityName =
                OSRGetAuthorityName(hSourceSRS, nullptr);
            if( eSrcSRSFormat == FORMAT_AUTO )
            {
                if( pszAuthorityName != nullptr && pszAuthorityCode != nullptr )
                {
                    OGR_F_SetFieldString(
                        hFeature, i_SrcSRSName,
                        CPLSPrintf("%s:%s",
                                   pszAuthorityName, pszAuthorityCode) );
                }
                else if( nMaxFieldSize == 0 ||
                         strlen(projectionRef) <= nMaxFieldSize )
                {
                    OGR_F_SetFieldString(hFeature, i_SrcSRSName, projectionRef);
                }
                else
                {
                    char* pszProj4 = nullptr;
                    if( OSRExportToProj4(hSourceSRS, &pszProj4) == OGRERR_NONE )
                    {
                        OGR_F_SetFieldString( hFeature, i_SrcSRSName,
                                              pszProj4 );
                        CPLFree(pszProj4);
                    }
                    else
                    {
                        OGR_F_SetFieldString( hFeature, i_SrcSRSName,
                                              projectionRef );
                    }
                }
            }
            else if( eSrcSRSFormat == FORMAT_WKT )
            {
                if( nMaxFieldSize == 0 ||
                    strlen(projectionRef) <= nMaxFieldSize )
                {
                    OGR_F_SetFieldString( hFeature, i_SrcSRSName,
                                          projectionRef );
                }
                else
                {
                    fprintf(stderr,
                            "Cannot write WKT for file %s as it is too long!\n",
                            fileNameToWrite);
                }
            }
            else if( eSrcSRSFormat == FORMAT_PROJ )
            {
                char* pszProj4 = nullptr;
                if( OSRExportToProj4(hSourceSRS, &pszProj4) == OGRERR_NONE )
                {
                    OGR_F_SetFieldString( hFeature, i_SrcSRSName, pszProj4 );
                    CPLFree(pszProj4);
                }
            }
            else if( eSrcSRSFormat == FORMAT_EPSG )
            {
                if( pszAuthorityName != nullptr && pszAuthorityCode != nullptr )
                    OGR_F_SetFieldString(
                        hFeature, i_SrcSRSName,
                        CPLSPrintf("%s:%s",
                                   pszAuthorityName, pszAuthorityCode) );
            }
        }
        if( hSourceSRS )
            OSRDestroySpatialReference( hSourceSRS );

        OGRGeometryH hPoly = OGR_G_CreateGeometry(wkbPolygon);
        OGRGeometryH hRing = OGR_G_CreateGeometry(wkbLinearRing);
        for( int k = 0; k < 5; k++ )
            OGR_G_SetPoint_2D(hRing, k, adfX[k], adfY[k]);
        OGR_G_AddGeometryDirectly( hPoly, hRing );
        OGR_F_SetGeometryDirectly( hFeature, hPoly );

        if( OGR_L_CreateFeature( hLayer, hFeature ) != OGRERR_NONE )
        {
           printf( "Failed to create feature in shapefile.\n" );
           break;
        }

        OGR_F_Destroy( hFeature );

        CPLFree(fileNameToWrite);

        GDALClose( hDS );
    }

    CPLFree(current_path);

    if (nExistingFiles)
    {
        for( int i = 0; i < nExistingFiles; i++ )
        {
            CPLFree(existingFilesTab[i]);
        }
        CPLFree(existingFilesTab);
    }
    CPLFree(alreadyExistingProjectionRef);

    if ( hTargetSRS )
        OSRDestroySpatialReference( hTargetSRS );

    GDALClose( hTileIndexDS );

    GDALDestroyDriverManager();
    OGRCleanupAll();
    CSLDestroy(argv);

    exit( 0 );
}
Ejemplo n.º 7
0
CPLErr RasterliteDataset::CreateOverviewLevel(const char * pszResampling,
                                              int nOvrFactor,
                                              char** papszOptions,
                                              GDALProgressFunc pfnProgress,
                                              void * pProgressData)
{

    double dfXResolution = padfXResolutions[0] * nOvrFactor;
    double dfYResolution = padfXResolutions[0] * nOvrFactor;
    
    CPLString osSQL;

    int nOvrXSize = nRasterXSize / nOvrFactor;
    int nOvrYSize = nRasterYSize / nOvrFactor;
    
    if (nOvrXSize == 0 || nOvrYSize == 0)
        return CE_Failure;

    int bTiled = CSLTestBoolean(CSLFetchNameValueDef(papszOptions, "TILED", "YES"));
    int nBlockXSize, nBlockYSize;
    if (bTiled)
    {
        nBlockXSize = atoi(CSLFetchNameValueDef(papszOptions, "BLOCKXSIZE", "256"));
        nBlockYSize = atoi(CSLFetchNameValueDef(papszOptions, "BLOCKYSIZE", "256"));
        if (nBlockXSize < 64) nBlockXSize = 64;
        else if (nBlockXSize > 4096)  nBlockXSize = 4096;
        if (nBlockYSize < 64) nBlockYSize = 64;
        else if (nBlockYSize > 4096)  nBlockYSize = 4096;
    }
    else
    {
        nBlockXSize = nOvrXSize;
        nBlockYSize = nOvrYSize;
    }
    
    int nXBlocks = (nOvrXSize + nBlockXSize - 1) / nBlockXSize;
    int nYBlocks = (nOvrYSize + nBlockYSize - 1) / nBlockYSize;
    
    const char* pszDriverName = CSLFetchNameValueDef(papszOptions, "DRIVER", "GTiff");
    if (EQUAL(pszDriverName, "MEM") || EQUAL(pszDriverName, "VRT"))
    {
        CPLError(CE_Failure, CPLE_AppDefined, "GDAL %s driver cannot be used as underlying driver",
                 pszDriverName);
        return CE_Failure;
    }
    GDALDriverH hTileDriver = GDALGetDriverByName(pszDriverName);
    if (hTileDriver == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot load GDAL %s driver", pszDriverName);
        return CE_Failure;
    }

    GDALDriverH hMemDriver = GDALGetDriverByName("MEM");
    if (hMemDriver == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot load GDAL MEM driver");
        return CE_Failure;
    }   

    GDALDataType eDataType = GetRasterBand(1)->GetRasterDataType();
    int nDataTypeSize = GDALGetDataTypeSize(eDataType) / 8;
    GByte* pabyMEMDSBuffer =
        (GByte*)VSIMalloc3(nBlockXSize, nBlockYSize, nBands * nDataTypeSize);
    if (pabyMEMDSBuffer == NULL)
    {
        return CE_Failure;
    }
    
    CPLString osTempFileName;
    osTempFileName.Printf("/vsimem/%p", hDS);
    
    int nTileId = 0;
    int nBlocks = 0;
    int nTotalBlocks = nXBlocks * nYBlocks;
    
    CPLString osRasterLayer;
    osRasterLayer.Printf("%s_rasters", osTableName.c_str());
    
    CPLString osMetatadataLayer;
    osMetatadataLayer.Printf("%s_metadata", osTableName.c_str());
    
    OGRLayerH hRasterLayer = OGR_DS_GetLayerByName(hDS, osRasterLayer.c_str());
    OGRLayerH hMetadataLayer = OGR_DS_GetLayerByName(hDS, osMetatadataLayer.c_str());
    
    CPLString osSourceName = "unknown";
    
    osSQL.Printf("SELECT source_name FROM \"%s\" WHERE "
                 "%s LIMIT 1",
                 osMetatadataLayer.c_str(),
                 RasterliteGetPixelSizeCond(padfXResolutions[0], padfYResolutions[0]).c_str());
    OGRLayerH hSQLLyr = OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
    if (hSQLLyr)
    {
        OGRFeatureH hFeat = OGR_L_GetNextFeature(hSQLLyr);
        if (hFeat)
        {
            const char* pszVal = OGR_F_GetFieldAsString(hFeat, 0);
            if (pszVal)
                osSourceName = pszVal;
            OGR_F_Destroy(hFeat);
        }
        OGR_DS_ReleaseResultSet(hDS, hSQLLyr);
    }
    
/* -------------------------------------------------------------------- */
/*      Compute up to which existing overview level we can use for      */
/*      computing the requested overview                                */
/* -------------------------------------------------------------------- */
    int iLev;
    nLimitOvrCount = 0;
    for(iLev=1;iLev<nResolutions;iLev++)
    {
        if (!(padfXResolutions[iLev] < dfXResolution - 1e-10 &&
              padfYResolutions[iLev] < dfYResolution - 1e-10))
        {
            break;
        }
        nLimitOvrCount++;
    }
/* -------------------------------------------------------------------- */
/*      Allocate buffer for tile of previous overview level             */
/* -------------------------------------------------------------------- */

    GDALDataset* poPrevOvrLevel =
        (papoOverviews != NULL && iLev >= 2 && iLev <= nResolutions && papoOverviews[iLev-2]) ?
            papoOverviews[iLev-2] : this;
    double dfRatioPrevOvr = poPrevOvrLevel->GetRasterBand(1)->GetXSize() / nOvrXSize;
    int nPrevOvrBlockXSize = (int)(nBlockXSize * dfRatioPrevOvr + 0.5);
    int nPrevOvrBlockYSize = (int)(nBlockYSize * dfRatioPrevOvr + 0.5);
    GByte* pabyPrevOvrMEMDSBuffer = NULL;

    if( !EQUALN(pszResampling, "NEAR", 4))
    {
        pabyPrevOvrMEMDSBuffer =
            (GByte*)VSIMalloc3(nPrevOvrBlockXSize, nPrevOvrBlockYSize, nBands * nDataTypeSize);
        if (pabyPrevOvrMEMDSBuffer == NULL)
        {
            VSIFree(pabyMEMDSBuffer);
            return CE_Failure;
        }
    }

/* -------------------------------------------------------------------- */
/*      Iterate over blocks to add data into raster and metadata tables */
/* -------------------------------------------------------------------- */

    char** papszTileDriverOptions = RasterliteGetTileDriverOptions(papszOptions);

    OGR_DS_ExecuteSQL(hDS, "BEGIN", NULL, NULL);
    
    CPLErr eErr = CE_None;
    int nBlockXOff, nBlockYOff;
    for(nBlockYOff=0;eErr == CE_None && nBlockYOff<nYBlocks;nBlockYOff++)
    {
        for(nBlockXOff=0;eErr == CE_None && nBlockXOff<nXBlocks;nBlockXOff++)
        {
            GDALDatasetH hPrevOvrMemDS = NULL;

/* -------------------------------------------------------------------- */
/*      Create in-memory tile                                           */
/* -------------------------------------------------------------------- */
            int nReqXSize = nBlockXSize, nReqYSize = nBlockYSize;
            if ((nBlockXOff+1) * nBlockXSize > nOvrXSize)
                nReqXSize = nOvrXSize - nBlockXOff * nBlockXSize;
            if ((nBlockYOff+1) * nBlockYSize > nOvrYSize)
                nReqYSize = nOvrYSize - nBlockYOff * nBlockYSize;

            if( pabyPrevOvrMEMDSBuffer != NULL )
            {
                int nPrevOvrReqXSize =
                    (int)(nReqXSize * dfRatioPrevOvr + 0.5);
                int nPrevOvrReqYSize =
                    (int)(nReqYSize * dfRatioPrevOvr + 0.5);

                eErr = RasterIO(GF_Read,
                                nBlockXOff * nBlockXSize * nOvrFactor,
                                nBlockYOff * nBlockYSize * nOvrFactor,
                                nReqXSize * nOvrFactor, nReqYSize * nOvrFactor,
                                pabyPrevOvrMEMDSBuffer, nPrevOvrReqXSize, nPrevOvrReqYSize,
                                eDataType, nBands, NULL,
                                0, 0, 0, NULL);

                if (eErr != CE_None)
                {
                    break;
                }

                hPrevOvrMemDS = GDALCreate(hMemDriver, "MEM:::",
                                           nPrevOvrReqXSize, nPrevOvrReqYSize, 0,
                                           eDataType, NULL);

                if (hPrevOvrMemDS == NULL)
                {
                    eErr = CE_Failure;
                    break;
                }

                int iBand;
                for(iBand = 0; iBand < nBands; iBand ++)
                {
                    char** papszOptions = NULL;
                    char szTmp[64];
                    memset(szTmp, 0, sizeof(szTmp));
                    CPLPrintPointer(szTmp,
                                    pabyPrevOvrMEMDSBuffer + iBand * nDataTypeSize *
                                    nPrevOvrReqXSize * nPrevOvrReqYSize, sizeof(szTmp));
                    papszOptions = CSLSetNameValue(papszOptions, "DATAPOINTER", szTmp);
                    GDALAddBand(hPrevOvrMemDS, eDataType, papszOptions);
                    CSLDestroy(papszOptions);
                }
            }
            else
            {
                eErr = RasterIO(GF_Read,
                                nBlockXOff * nBlockXSize * nOvrFactor,
                                nBlockYOff * nBlockYSize * nOvrFactor,
                                nReqXSize * nOvrFactor, nReqYSize * nOvrFactor,
                                pabyMEMDSBuffer, nReqXSize, nReqYSize,
                                eDataType, nBands, NULL,
                                0, 0, 0, NULL);
                if (eErr != CE_None)
                {
                    break;
                }
            }

            GDALDatasetH hMemDS = GDALCreate(hMemDriver, "MEM:::",
                                              nReqXSize, nReqYSize, 0, 
                                              eDataType, NULL);
            if (hMemDS == NULL)
            {
                eErr = CE_Failure;
                break;
            }
            
            int iBand;
            for(iBand = 0; iBand < nBands; iBand ++)
            {
                char** papszOptions = NULL;
                char szTmp[64];
                memset(szTmp, 0, sizeof(szTmp));
                CPLPrintPointer(szTmp,
                                pabyMEMDSBuffer + iBand * nDataTypeSize *
                                nReqXSize * nReqYSize, sizeof(szTmp));
                papszOptions = CSLSetNameValue(papszOptions, "DATAPOINTER", szTmp);
                GDALAddBand(hMemDS, eDataType, papszOptions);
                CSLDestroy(papszOptions);
            }

            if( hPrevOvrMemDS != NULL )
            {
                for(iBand = 0; iBand < nBands; iBand ++)
                {
                    GDALRasterBandH hDstOvrBand = GDALGetRasterBand(hMemDS, iBand+1);

                    eErr = GDALRegenerateOverviews( GDALGetRasterBand(hPrevOvrMemDS, iBand+1),
                                                    1, &hDstOvrBand,
                                                    pszResampling,
                                                    NULL, NULL );
                    if( eErr != CE_None )
                        break;
                }

                GDALClose(hPrevOvrMemDS);
            }

            GDALDatasetH hOutDS = GDALCreateCopy(hTileDriver,
                                        osTempFileName.c_str(), hMemDS, FALSE,
                                        papszTileDriverOptions, NULL, NULL);

            GDALClose(hMemDS);
            if (hOutDS)
                GDALClose(hOutDS);
            else
            {
                eErr = CE_Failure;
                break;
            }

/* -------------------------------------------------------------------- */
/*      Insert new entry into raster table                              */
/* -------------------------------------------------------------------- */

            vsi_l_offset nDataLength;
            GByte *pabyData = VSIGetMemFileBuffer( osTempFileName.c_str(),
                                                   &nDataLength, FALSE);

            OGRFeatureH hFeat = OGR_F_Create( OGR_L_GetLayerDefn(hRasterLayer) );
            OGR_F_SetFieldBinary(hFeat, 0, (int)nDataLength, pabyData);
            
            OGR_L_CreateFeature(hRasterLayer, hFeat);
            /* Query raster ID to set it as the ID of the associated metadata */
            int nRasterID = (int)OGR_F_GetFID(hFeat);
            
            OGR_F_Destroy(hFeat);
            
            VSIUnlink(osTempFileName.c_str());
            
/* -------------------------------------------------------------------- */
/*      Insert new entry into metadata table                            */
/* -------------------------------------------------------------------- */
            
            hFeat = OGR_F_Create( OGR_L_GetLayerDefn(hMetadataLayer) );
            OGR_F_SetFID(hFeat, nRasterID);
            OGR_F_SetFieldString(hFeat, 0, osSourceName);
            OGR_F_SetFieldInteger(hFeat, 1, nTileId ++);
            OGR_F_SetFieldInteger(hFeat, 2, nReqXSize);
            OGR_F_SetFieldInteger(hFeat, 3, nReqYSize);
            OGR_F_SetFieldDouble(hFeat, 4, dfXResolution);
            OGR_F_SetFieldDouble(hFeat, 5, dfYResolution);
            
            double minx, maxx, maxy, miny;
            minx = adfGeoTransform[0] +
                (nBlockXSize * nBlockXOff) * dfXResolution;
            maxx = adfGeoTransform[0] +
                (nBlockXSize * nBlockXOff + nReqXSize) * dfXResolution;
            maxy = adfGeoTransform[3] +
                (nBlockYSize * nBlockYOff) * (-dfYResolution);
            miny = adfGeoTransform[3] +
                (nBlockYSize * nBlockYOff + nReqYSize) * (-dfYResolution);
            
            OGRGeometryH hRectangle = OGR_G_CreateGeometry(wkbPolygon);
            OGRGeometryH hLinearRing = OGR_G_CreateGeometry(wkbLinearRing);
            OGR_G_AddPoint_2D(hLinearRing, minx, miny);
            OGR_G_AddPoint_2D(hLinearRing, minx, maxy);
            OGR_G_AddPoint_2D(hLinearRing, maxx, maxy);
            OGR_G_AddPoint_2D(hLinearRing, maxx, miny);
            OGR_G_AddPoint_2D(hLinearRing, minx, miny);
            OGR_G_AddGeometryDirectly(hRectangle, hLinearRing);
            
            OGR_F_SetGeometryDirectly(hFeat, hRectangle);
            
            OGR_L_CreateFeature(hMetadataLayer, hFeat);
            OGR_F_Destroy(hFeat);
            
            nBlocks++;
            if (pfnProgress && !pfnProgress(1.0 * nBlocks / nTotalBlocks,
                                            NULL, pProgressData))
                eErr = CE_Failure;
        }
    }

    nLimitOvrCount = -1;
    
    if (eErr == CE_None)
        OGR_DS_ExecuteSQL(hDS, "COMMIT", NULL, NULL);
    else
        OGR_DS_ExecuteSQL(hDS, "ROLLBACK", NULL, NULL);
    
    VSIFree(pabyMEMDSBuffer);
    VSIFree(pabyPrevOvrMEMDSBuffer);

    CSLDestroy(papszTileDriverOptions);
    papszTileDriverOptions = NULL;

/* -------------------------------------------------------------------- */
/*      Update raster_pyramids table                                    */
/* -------------------------------------------------------------------- */
    if (eErr == CE_None)
    {
        OGRLayerH hRasterPyramidsLyr = OGR_DS_GetLayerByName(hDS, "raster_pyramids");
        if (hRasterPyramidsLyr == NULL)
        {
            osSQL.Printf   ("CREATE TABLE raster_pyramids ("
                            "table_prefix TEXT NOT NULL,"
                            "pixel_x_size DOUBLE NOT NULL,"
                            "pixel_y_size DOUBLE NOT NULL,"
                            "tile_count INTEGER NOT NULL)");
            OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
            
            /* Re-open the DB to take into account the new tables*/
            OGRReleaseDataSource(hDS);
            
            hDS = RasterliteOpenSQLiteDB(osFileName.c_str(), GA_Update);

            hRasterPyramidsLyr = OGR_DS_GetLayerByName(hDS, "raster_pyramids");
            if (hRasterPyramidsLyr == NULL)
                return CE_Failure;
        }
        OGRFeatureDefnH hFDefn = OGR_L_GetLayerDefn(hRasterPyramidsLyr);

        /* Insert base resolution into raster_pyramids if not already done */
        int bHasBaseResolution = FALSE;
        osSQL.Printf("SELECT * FROM raster_pyramids WHERE "
                     "table_prefix = '%s' AND %s",
                     osTableName.c_str(),
                     RasterliteGetPixelSizeCond(padfXResolutions[0], padfYResolutions[0]).c_str());
        hSQLLyr = OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
        if (hSQLLyr)
        {
            OGRFeatureH hFeat = OGR_L_GetNextFeature(hSQLLyr);
            if (hFeat)
            {
                bHasBaseResolution = TRUE;
                OGR_F_Destroy(hFeat);
            }
            OGR_DS_ReleaseResultSet(hDS, hSQLLyr);
        }

        if (!bHasBaseResolution)
        {
            osSQL.Printf("SELECT COUNT(*) FROM \"%s\" WHERE %s",
                          osMetatadataLayer.c_str(),
                          RasterliteGetPixelSizeCond(padfXResolutions[0], padfYResolutions[0]).c_str());

            int nBlocksMainRes = 0;

            hSQLLyr = OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
            if (hSQLLyr)
            {
                OGRFeatureH hFeat = OGR_L_GetNextFeature(hSQLLyr);
                if (hFeat)
                {
                    nBlocksMainRes = OGR_F_GetFieldAsInteger(hFeat, 0);
                    OGR_F_Destroy(hFeat);
                }
                OGR_DS_ReleaseResultSet(hDS, hSQLLyr);
            }

            OGRFeatureH hFeat = OGR_F_Create( hFDefn );
            OGR_F_SetFieldString(hFeat, OGR_FD_GetFieldIndex(hFDefn, "table_prefix"), osTableName.c_str());
            OGR_F_SetFieldDouble(hFeat, OGR_FD_GetFieldIndex(hFDefn, "pixel_x_size"), padfXResolutions[0]);
            OGR_F_SetFieldDouble(hFeat, OGR_FD_GetFieldIndex(hFDefn, "pixel_y_size"), padfYResolutions[0]);
            OGR_F_SetFieldInteger(hFeat, OGR_FD_GetFieldIndex(hFDefn, "tile_count"), nBlocksMainRes);
            OGR_L_CreateFeature(hRasterPyramidsLyr, hFeat);
            OGR_F_Destroy(hFeat);
        }

        OGRFeatureH hFeat = OGR_F_Create( hFDefn );
        OGR_F_SetFieldString(hFeat, OGR_FD_GetFieldIndex(hFDefn, "table_prefix"), osTableName.c_str());
        OGR_F_SetFieldDouble(hFeat, OGR_FD_GetFieldIndex(hFDefn, "pixel_x_size"), dfXResolution);
        OGR_F_SetFieldDouble(hFeat, OGR_FD_GetFieldIndex(hFDefn, "pixel_y_size"), dfYResolution);
        OGR_F_SetFieldInteger(hFeat, OGR_FD_GetFieldIndex(hFDefn, "tile_count"), nTotalBlocks);
        OGR_L_CreateFeature(hRasterPyramidsLyr, hFeat);
        OGR_F_Destroy(hFeat);
    }

    return eErr;
}
Ejemplo n.º 8
0
  int tindex(maps*& conf, maps*& inputs,maps*& outputs)
  {
    char *index_filename = NULL;
    const char *tile_index = "location";
    int		i_arg, ti_field;
    OGRDataSourceH hTileIndexDS;
    OGRLayerH hLayer = NULL;
    OGRFeatureDefnH hFDefn;
    int write_absolute_path = FALSE;
    char* current_path = NULL;
    int i;
    int nExistingFiles;
    int skip_different_projection = FALSE;
    char** existingFilesTab = NULL;
    int alreadyExistingProjectionRefValid = FALSE;
    char* alreadyExistingProjectionRef = NULL;
    char* index_filename_mod;
    int bExists;
    VSIStatBuf sStatBuf;

    /* Check that we are running against at least GDAL 1.4 */
    /* Note to developers : if we use newer API, please change the requirement */
    if (atoi(GDALVersionInfo("VERSION_NUM")) < 1400)
      {
	char tmp[1024];
        sprintf(tmp, "At least, GDAL >= 1.4.0 is required for this version of"
		"tindex, which was compiled against GDAL %s\n", GDAL_RELEASE_NAME);
        return SERVICE_FAILED;
      }

    GDALAllRegister();
    OGRRegisterAll();


    /* -------------------------------------------------------------------- */
    /*      Get the directory name to search for raster file to index.      */
    /* -------------------------------------------------------------------- */
    char *tmpDataDir;
    char *pszDataDir;
    map* tmpMap=getMapFromMaps(conf,"main","isTrial");      
    map* tmpMap1=getMapFromMaps(conf,"main","dataPath");
    map* tmpInputMap=getMapFromMaps(inputs,"dir","value");
    if(tmpMap!=NULL && strcasecmp(tmpMap->value,"true")==0){
      pszDataDir=(char*) malloc((strlen(tmpInputMap->value)+strlen(tmpMap1->value)+5+1)*sizeof(char));
      sprintf(pszDataDir,"%s/ftp/%s",tmpMap1->value,tmpInputMap->value);
    }else{
      pszDataDir=(char*) malloc(((strlen(tmpInputMap->value)+1)*sizeof(char)));
      sprintf(pszDataDir,"%s",tmpInputMap->value);
    }
    
    tmpMap=getMapFromMaps(inputs,"iname","value");
    tmpMap1=getMapFromMaps(inputs,"idir","value");
    map* tmpMap2=getMapFromMaps(conf,"main","dataPath");
    if(tmpMap!=NULL && tmpMap1!=NULL && tmpMap2!=NULL){
      index_filename = (char*) malloc((strlen(tmpMap->value)+strlen(tmpMap1->value)+strlen(tmpMap2->value)+12)*sizeof(char));
      sprintf(index_filename,"%s/dirs/%s/%s.shp",tmpMap2->value,tmpMap1->value,tmpMap->value);
    }
    fprintf(stderr,"Filename %s\n",index_filename);
    /* -------------------------------------------------------------------- */
    /*      Open or create the target shapefile and DBF file.               */
    /* -------------------------------------------------------------------- */
    index_filename_mod = CPLStrdup(CPLResetExtension(index_filename, "shp"));

    bExists = (VSIStat(index_filename_mod, &sStatBuf) == 0);
    if (!bExists)
      {
        CPLFree(index_filename_mod);
        index_filename_mod = CPLStrdup(CPLResetExtension(index_filename, "SHP"));
        bExists = (VSIStat(index_filename_mod, &sStatBuf) == 0);
      }
    CPLFree(index_filename_mod);

    if (bExists)
      {
        hTileIndexDS = OGROpen( index_filename, TRUE, NULL );
        if (hTileIndexDS != NULL)
	  {
            hLayer = OGR_DS_GetLayer(hTileIndexDS, 0);
	  }
      }
    else
      {
        OGRSFDriverH hDriver;
        const char* pszDriverName = "ESRI Shapefile";

        fprintf( stderr,"Creating new index file...\n" );
        hDriver = OGRGetDriverByName( pszDriverName );
        if( hDriver == NULL )
	  {
	    char msg[1024];
            sprintf( msg, "%s driver not available.", pszDriverName );
	    setMapInMaps(conf,"lenv","message",msg);
	    return SERVICE_FAILED;
	  }

        hTileIndexDS = OGR_Dr_CreateDataSource( hDriver, index_filename, NULL );
        if (hTileIndexDS)
	  {
            char* pszLayerName = CPLStrdup(CPLGetBasename(index_filename));
            OGRSpatialReferenceH hSpatialRef = NULL;
            GDALDatasetH hDS = GDALOpen( index_filename, GA_ReadOnly );
            if (hDS)
	      {
                const char* pszWKT = GDALGetProjectionRef(hDS);
                if (pszWKT != NULL && pszWKT[0] != '\0')
		  {
                    hSpatialRef = OSRNewSpatialReference(pszWKT);
		  }
                GDALClose(hDS);
	      }

	    DIR *dirp = opendir(pszDataDir);
	    if(dirp==NULL){
	      char tmp1[1024];
	      sprintf(tmp1,_ss("The specified path %s doesn't exist."),pszDataDir);
	      setMapInMaps(conf,"lenv","message",tmp1);
	      return SERVICE_FAILED;
	    }
	    char *res=NULL;
	    struct dirent *dp;
	    tmpMap=getMapFromMaps(inputs,"ext","value");
	    char *ext;
	    if(tmpMap!=NULL)
	      ext=tmpMap->value;
	    while ((dp = readdir(dirp)) != NULL){
	      if(strncmp(dp->d_name,".",1)!=0&&strncmp(dp->d_name,"..",2)!=0){
		char* argv=(char*) malloc((strlen(dp->d_name)+strlen(pszDataDir)+2)*sizeof(char));
		sprintf(argv,"%s/%s",pszDataDir,dp->d_name);
		GDALDatasetH hDS0 = GDALOpen( argv, GA_ReadOnly );
		if (hDS0)
		  {
		    const char* pszWKT = GDALGetProjectionRef(hDS0);
		    fprintf(stderr,"SRS %s \n",pszWKT);
		    if (pszWKT != NULL && pszWKT[0] != '\0')
		      {
			if (hSpatialRef)
			  OSRRelease(hSpatialRef);
			hSpatialRef = OSRNewSpatialReference(pszWKT);
		      }
		    GDALClose(hDS);
		  }
		break;
	      }
	    }
	    closedir(dirp);
            hLayer = OGR_DS_CreateLayer( hTileIndexDS, pszLayerName, hSpatialRef, wkbPolygon, NULL );
            CPLFree(pszLayerName);
            if (hSpatialRef)
	      OSRRelease(hSpatialRef);

            if (hLayer)
	      {
                OGRFieldDefnH hFieldDefn = OGR_Fld_Create( tile_index, OFTString );
                OGR_Fld_SetWidth( hFieldDefn, 255);
                OGR_L_CreateField( hLayer, hFieldDefn, TRUE );
                OGR_Fld_Destroy(hFieldDefn);
	      }
	  }
      }

    if( hTileIndexDS == NULL || hLayer == NULL )
      {
	char msg[1024];
        sprintf( msg, "Unable to open/create shapefile `%s'.", 
                 index_filename );
	setMapInMaps(conf,"lenv","message",msg);
      }

    hFDefn = OGR_L_GetLayerDefn(hLayer);

    for( ti_field = 0; ti_field < OGR_FD_GetFieldCount(hFDefn); ti_field++ )
      {
        OGRFieldDefnH hFieldDefn = OGR_FD_GetFieldDefn( hFDefn, ti_field );
        if( strcmp(OGR_Fld_GetNameRef(hFieldDefn), tile_index) == 0 )
	  break;
      }

    if( ti_field == OGR_FD_GetFieldCount(hFDefn) )
      {
	char msg[1024];
        sprintf( msg, "Unable to find field `%s' in DBF file `%s'.\n", 
                 tile_index, index_filename );
	setMapInMaps(conf,"lenv","message",msg);
	return SERVICE_FAILED;
      }

    /* Load in memory existing file names in SHP */
    nExistingFiles = OGR_L_GetFeatureCount(hLayer, FALSE);
    if (nExistingFiles)
      {
        OGRFeatureH hFeature;
        existingFilesTab = (char**)CPLMalloc(nExistingFiles * sizeof(char*));
        for(i=0;i<nExistingFiles;i++)
	  {
            hFeature = OGR_L_GetNextFeature(hLayer);
            existingFilesTab[i] = CPLStrdup(OGR_F_GetFieldAsString( hFeature, ti_field ));
            if (i == 0)
	      {
                GDALDatasetH hDS = GDALOpen(existingFilesTab[i], GA_ReadOnly );
                if (hDS)
		  {
                    alreadyExistingProjectionRefValid = TRUE;
                    alreadyExistingProjectionRef = CPLStrdup(GDALGetProjectionRef(hDS));
                    GDALClose(hDS);
		  }
	      }
            OGR_F_Destroy( hFeature );
	  }
      }

    if (write_absolute_path)
      {
        current_path = CPLGetCurrentDir();
        if (current_path == NULL)
	  {
            fprintf( stderr, "This system does not support the CPLGetCurrentDir call. "
		     "The option -write_absolute_path will have no effect\n");
            write_absolute_path = FALSE;
	  }
      }

      
    /* -------------------------------------------------------------------- */
    /*      loop over GDAL files, processing.                               */
    /* -------------------------------------------------------------------- */
    DIR *dirp = opendir(pszDataDir);
    if(dirp==NULL){
      char tmp1[1024];
      sprintf(tmp1,_ss("The specified path %s doesn't exist."),pszDataDir);
      setMapInMaps(conf,"lenv","message",tmp1);
      return SERVICE_FAILED;
    }
    char *res=NULL;
    struct dirent *dp;
    tmpMap=getMapFromMaps(inputs,"ext","value");
    char *ext;
    if(tmpMap!=NULL)
      ext=tmpMap->value;
    while ((dp = readdir(dirp)) != NULL){
      
      if(strlen(dp->d_name)>2 && strstr(dp->d_name,".")!=0 && strstr(dp->d_name,ext)>0){
	char* argv=(char*) malloc((strlen(dp->d_name)+strlen(pszDataDir)+2)*sizeof(char));
	sprintf(argv,"%s/%s",pszDataDir,dp->d_name);


        GDALDatasetH	hDS;
        double	        adfGeoTransform[6];
        double		adfX[5], adfY[5];
        int		nXSize, nYSize;
        char* fileNameToWrite;
        const char* projectionRef;
        VSIStatBuf sStatBuf;
        int k;
        OGRFeatureH hFeature;
        OGRGeometryH hPoly, hRing;

        /* Make sure it is a file before building absolute path name */
        if (write_absolute_path && CPLIsFilenameRelative( argv ) &&
            VSIStat( argv, &sStatBuf ) == 0)
	  {
            fileNameToWrite = CPLStrdup(CPLProjectRelativeFilename(current_path, argv));
	  }
        else
	  {
            fileNameToWrite = CPLStrdup(argv);
	  }

        /* Checks that file is not already in tileindex */
        for(i=0;i<nExistingFiles;i++)
	  {
            if (EQUAL(fileNameToWrite, existingFilesTab[i]))
	      {
                fprintf(stderr, "File %s is already in tileindex. Skipping it.\n",
                        fileNameToWrite);
                break;
	      }
	  }
        if (i != nExistingFiles)
	  {
            CPLFree(fileNameToWrite);
            continue;
	  }

        hDS = GDALOpen( argv, GA_ReadOnly );
        if( hDS == NULL )
	  {
            fprintf( stderr, "Unable to open %s, skipping.\n", 
                     argv );
            CPLFree(fileNameToWrite);
	    continue;
	  }

        GDALGetGeoTransform( hDS, adfGeoTransform );
        if( adfGeoTransform[0] == 0.0 
            && adfGeoTransform[1] == 1.0
            && adfGeoTransform[3] == 0.0
            && ABS(adfGeoTransform[5]) == 1.0 )
	  {
            fprintf( stderr, 
                     "It appears no georeferencing is available for\n"
                     "`%s', skipping.\n", 
                     argv );
            GDALClose( hDS );
            CPLFree(fileNameToWrite);
            continue;
	  }

        projectionRef = GDALGetProjectionRef(hDS);
        if (alreadyExistingProjectionRefValid)
	  {
            int projectionRefNotNull, alreadyExistingProjectionRefNotNull;
            projectionRefNotNull = projectionRef && projectionRef[0];
            alreadyExistingProjectionRefNotNull = alreadyExistingProjectionRef && alreadyExistingProjectionRef[0];
            if ((projectionRefNotNull &&
                 alreadyExistingProjectionRefNotNull &&
                 EQUAL(projectionRef, alreadyExistingProjectionRef) == 0) ||
                (projectionRefNotNull != alreadyExistingProjectionRefNotNull))
	      {
                fprintf(stderr, "Warning : %s is not using the same projection system as "
			"other files in the tileindex. This may cause problems when "
			"using it in MapServer for example.%s\n", argv,
			(skip_different_projection) ? " Skipping it" : "");
                if (skip_different_projection)
		  {
                    CPLFree(fileNameToWrite);
                    GDALClose( hDS );
                    continue;
		  }
	      }
	  }
        else
	  {
            alreadyExistingProjectionRefValid = TRUE;
            alreadyExistingProjectionRef = CPLStrdup(projectionRef);
	  }

        nXSize = GDALGetRasterXSize( hDS );
        nYSize = GDALGetRasterYSize( hDS );
        
        adfX[0] = adfGeoTransform[0] 
	  + 0 * adfGeoTransform[1] 
	  + 0 * adfGeoTransform[2];
        adfY[0] = adfGeoTransform[3] 
	  + 0 * adfGeoTransform[4] 
	  + 0 * adfGeoTransform[5];
        
        adfX[1] = adfGeoTransform[0] 
	  + nXSize * adfGeoTransform[1] 
	  + 0 * adfGeoTransform[2];
        adfY[1] = adfGeoTransform[3] 
	  + nXSize * adfGeoTransform[4] 
	  + 0 * adfGeoTransform[5];
        
        adfX[2] = adfGeoTransform[0] 
	  + nXSize * adfGeoTransform[1] 
	  + nYSize * adfGeoTransform[2];
        adfY[2] = adfGeoTransform[3] 
	  + nXSize * adfGeoTransform[4] 
	  + nYSize * adfGeoTransform[5];
        
        adfX[3] = adfGeoTransform[0] 
	  + 0 * adfGeoTransform[1] 
	  + nYSize * adfGeoTransform[2];
        adfY[3] = adfGeoTransform[3] 
	  + 0 * adfGeoTransform[4] 
	  + nYSize * adfGeoTransform[5];
        
        adfX[4] = adfGeoTransform[0] 
	  + 0 * adfGeoTransform[1] 
	  + 0 * adfGeoTransform[2];
        adfY[4] = adfGeoTransform[3] 
	  + 0 * adfGeoTransform[4] 
	  + 0 * adfGeoTransform[5];

        hFeature = OGR_F_Create( OGR_L_GetLayerDefn( hLayer ) );
        OGR_F_SetFieldString( hFeature, ti_field, fileNameToWrite );

        hPoly = OGR_G_CreateGeometry(wkbPolygon);
        hRing = OGR_G_CreateGeometry(wkbLinearRing);
        for(k=0;k<5;k++)
	  OGR_G_SetPoint_2D(hRing, k, adfX[k], adfY[k]);
        OGR_G_AddGeometryDirectly( hPoly, hRing );
        OGR_F_SetGeometryDirectly( hFeature, hPoly );

        if( OGR_L_CreateFeature( hLayer, hFeature ) != OGRERR_NONE )
	  {
	    fprintf( stderr, "Failed to create feature in shapefile.\n" );
	    break;
	  }

        OGR_F_Destroy( hFeature );

        
        CPLFree(fileNameToWrite);

        GDALClose( hDS );
      }
    }
    
    CPLFree(current_path);
    
    if (nExistingFiles)
      {
        for(i=0;i<nExistingFiles;i++)
	  {
            CPLFree(existingFilesTab[i]);
	  }
        CPLFree(existingFilesTab);
      }
    CPLFree(alreadyExistingProjectionRef);

    OGR_DS_Destroy( hTileIndexDS );
    
    GDALDestroyDriverManager();
    OGRCleanupAll();
    setMapInMaps(outputs,"Result","value","Tile index successfully created.");
    //CSLDestroy(argv);
    
    return SERVICE_SUCCEEDED;
  } 
Ejemplo n.º 9
0
static CPLErr
EmitPolygonToLayer( OGRLayerH hOutLayer, int iPixValField,
                    RPolygonF *poRPoly, double *padfGeoTransform )

{
    OGRFeatureH hFeat;
    OGRGeometryH hPolygon;

/* -------------------------------------------------------------------- */
/*      Turn bits of lines into coherent rings.                         */
/* -------------------------------------------------------------------- */
    poRPoly->Coalesce();

/* -------------------------------------------------------------------- */
/*      Create the polygon geometry.                                    */
/* -------------------------------------------------------------------- */
    size_t iString;

    hPolygon = OGR_G_CreateGeometry( wkbPolygon );
    
    for( iString = 0; iString < poRPoly->aanXY.size(); iString++ )
    {
        std::vector<int> &anString = poRPoly->aanXY[iString];
        OGRGeometryH hRing = OGR_G_CreateGeometry( wkbLinearRing );

        int iVert;

        // we go last to first to ensure the linestring is allocated to 
        // the proper size on the first try.
        for( iVert = anString.size()/2 - 1; iVert >= 0; iVert-- )
        {
            double dfX, dfY;
            int    nPixelX, nPixelY;
            
            nPixelX = anString[iVert*2];
            nPixelY = anString[iVert*2+1];

            dfX = padfGeoTransform[0] 
                + nPixelX * padfGeoTransform[1]
                + nPixelY * padfGeoTransform[2];
            dfY = padfGeoTransform[3] 
                + nPixelX * padfGeoTransform[4]
                + nPixelY * padfGeoTransform[5];

            OGR_G_SetPoint_2D( hRing, iVert, dfX, dfY );
        }

        OGR_G_AddGeometryDirectly( hPolygon, hRing );
    }
    
/* -------------------------------------------------------------------- */
/*      Create the feature object.                                      */
/* -------------------------------------------------------------------- */
    hFeat = OGR_F_Create( OGR_L_GetLayerDefn( hOutLayer ) );

    OGR_F_SetGeometryDirectly( hFeat, hPolygon );

    if( iPixValField >= 0 )
        OGR_F_SetFieldDouble( hFeat, iPixValField, (double)poRPoly->fPolyValue );

/* -------------------------------------------------------------------- */
/*      Write the to the layer.                                         */
/* -------------------------------------------------------------------- */
    CPLErr eErr = CE_None;

    if( OGR_L_CreateFeature( hOutLayer, hFeat ) != OGRERR_NONE )
        eErr = CE_Failure;

    OGR_F_Destroy( hFeat );

    return eErr;
}
CPLErr RasterliteDataset::CreateOverviewLevel(int nOvrFactor,
                                              GDALProgressFunc pfnProgress,
                                              void * pProgressData)
{

    double dfXResolution = padfXResolutions[0] * nOvrFactor;
    double dfYResolution = padfXResolutions[0] * nOvrFactor;
    
    CPLString osSQL;

    int nBlockXSize = 256;
    int nBlockYSize = 256;
    int nOvrXSize = nRasterXSize / nOvrFactor;
    int nOvrYSize = nRasterYSize / nOvrFactor;
    
    if (nOvrXSize == 0 || nOvrYSize == 0)
        return CE_Failure;
    
    int nXBlocks = (nOvrXSize + nBlockXSize - 1) / nBlockXSize;
    int nYBlocks = (nOvrYSize + nBlockYSize - 1) / nBlockYSize;
    
    const char* pszDriverName = "GTiff";
    GDALDriverH hTileDriver = GDALGetDriverByName(pszDriverName);
    if (hTileDriver == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot load GDAL %s driver", pszDriverName);
        return CE_Failure;
    }
    
    GDALDriverH hMemDriver = GDALGetDriverByName("MEM");
    if (hMemDriver == NULL)
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Cannot load GDAL MEM driver");
        return CE_Failure;
    }   

    GDALDataType eDataType = GetRasterBand(1)->GetRasterDataType();
    int nDataTypeSize = GDALGetDataTypeSize(eDataType) / 8;
    GByte* pabyMEMDSBuffer =
        (GByte*)VSIMalloc3(nBlockXSize, nBlockYSize, nBands * nDataTypeSize);
    if (pabyMEMDSBuffer == NULL)
    {
        return CE_Failure;
    }
    
    char** papszTileDriverOptions = NULL;
    
    CPLString osTempFileName;
    osTempFileName.Printf("/vsimem/%p", hDS);
    
    int nTileId = 0;
    int nBlocks = 0;
    int nTotalBlocks = nXBlocks * nYBlocks;
    
    CPLString osRasterLayer;
    osRasterLayer.Printf("%s_rasters", osTableName.c_str());
    
    CPLString osMetatadataLayer;
    osMetatadataLayer.Printf("%s_metadata", osTableName.c_str());
    
    OGRLayerH hRasterLayer = OGR_DS_GetLayerByName(hDS, osRasterLayer.c_str());
    OGRLayerH hMetadataLayer = OGR_DS_GetLayerByName(hDS, osMetatadataLayer.c_str());
    
    CPLString osSourceName = "unknown";
    
    osSQL.Printf("SELECT source_name FROM \"%s\" WHERE "
                 "pixel_x_size >= %.15f AND pixel_x_size <= %.15f AND "
                 "pixel_y_size >= %.15f AND pixel_y_size <= %.15f LIMIT 1",
                 osMetatadataLayer.c_str(),
                 padfXResolutions[0] - 1e-15, padfXResolutions[0] + 1e-15,
                 padfYResolutions[0] - 1e-15, padfYResolutions[0] + 1e-15);
    OGRLayerH hSQLLyr = OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
    if (hSQLLyr)
    {
        OGRFeatureH hFeat = OGR_L_GetNextFeature(hSQLLyr);
        if (hFeat)
        {
            const char* pszVal = OGR_F_GetFieldAsString(hFeat, 0);
            if (pszVal)
                osSourceName = pszVal;
            OGR_F_Destroy(hFeat);
        }
        OGR_DS_ReleaseResultSet(hDS, hSQLLyr);
    }
    
/* -------------------------------------------------------------------- */
/*      Compute up to which existing overview level we can use for      */
/*      computing the requested overview                                */
/* -------------------------------------------------------------------- */
    int iLev;
    nLimitOvrCount = 0;
    for(iLev=1;iLev<nResolutions;iLev++)
    {
        if (!(padfXResolutions[iLev] < dfXResolution - 1e-10 &&
              padfYResolutions[iLev] < dfYResolution - 1e-10))
        {
            break;
        }
        nLimitOvrCount++;
    }
    
/* -------------------------------------------------------------------- */
/*      Iterate over blocks to add data into raster and metadata tables */
/* -------------------------------------------------------------------- */

    OGR_DS_ExecuteSQL(hDS, "BEGIN", NULL, NULL);
    
    CPLErr eErr = CE_None;
    int nBlockXOff, nBlockYOff;
    for(nBlockYOff=0;eErr == CE_None && nBlockYOff<nYBlocks;nBlockYOff++)
    {
        for(nBlockXOff=0;eErr == CE_None && nBlockXOff<nXBlocks;nBlockXOff++)
        {
/* -------------------------------------------------------------------- */
/*      Create in-memory tile                                           */
/* -------------------------------------------------------------------- */
            int nReqXSize = nBlockXSize, nReqYSize = nBlockYSize;
            if ((nBlockXOff+1) * nBlockXSize > nOvrXSize)
                nReqXSize = nOvrXSize - nBlockXOff * nBlockXSize;
            if ((nBlockYOff+1) * nBlockYSize > nOvrYSize)
                nReqYSize = nOvrYSize - nBlockYOff * nBlockYSize;
            
            eErr = RasterIO(GF_Read,
                            nBlockXOff * nBlockXSize * nOvrFactor,
                            nBlockYOff * nBlockYSize * nOvrFactor,
                            nReqXSize * nOvrFactor, nReqYSize * nOvrFactor,
                            pabyMEMDSBuffer, nReqXSize, nReqYSize,
                            eDataType, nBands, NULL,
                            0, 0, 0);
            if (eErr != CE_None)
            {
                break;
            }
            
            GDALDatasetH hMemDS = GDALCreate(hMemDriver, "MEM:::",
                                              nReqXSize, nReqYSize, 0, 
                                              eDataType, NULL);
            if (hMemDS == NULL)
            {
                eErr = CE_Failure;
                break;
            }
            
            int iBand;
            for(iBand = 0; iBand < nBands; iBand ++)
            {
                char** papszOptions = NULL;
                char szTmp[64];
                memset(szTmp, 0, sizeof(szTmp));
                CPLPrintPointer(szTmp,
                                pabyMEMDSBuffer + iBand * nDataTypeSize *
                                nReqXSize * nReqYSize, sizeof(szTmp));
                papszOptions = CSLSetNameValue(papszOptions, "DATAPOINTER", szTmp);
                GDALAddBand(hMemDS, eDataType, papszOptions);
                CSLDestroy(papszOptions);
            }
            
            GDALDatasetH hOutDS = GDALCreateCopy(hTileDriver,
                                        osTempFileName.c_str(), hMemDS, FALSE,
                                        papszTileDriverOptions, NULL, NULL);

            GDALClose(hMemDS);
            if (hOutDS)
                GDALClose(hOutDS);
            else
            {
                eErr = CE_Failure;
                break;
            }

/* -------------------------------------------------------------------- */
/*      Insert new entry into raster table                              */
/* -------------------------------------------------------------------- */

            vsi_l_offset nDataLength;
            GByte *pabyData = VSIGetMemFileBuffer( osTempFileName.c_str(),
                                                   &nDataLength, FALSE);

            OGRFeatureH hFeat = OGR_F_Create( OGR_L_GetLayerDefn(hRasterLayer) );
            OGR_F_SetFieldBinary(hFeat, 0, (int)nDataLength, pabyData);
            
            OGR_L_CreateFeature(hRasterLayer, hFeat);
            /* Query raster ID to set it as the ID of the associated metadata */
            int nRasterID = (int)OGR_F_GetFID(hFeat);
            
            OGR_F_Destroy(hFeat);
            
            VSIUnlink(osTempFileName.c_str());
            
/* -------------------------------------------------------------------- */
/*      Insert new entry into metadata table                            */
/* -------------------------------------------------------------------- */
            
            hFeat = OGR_F_Create( OGR_L_GetLayerDefn(hMetadataLayer) );
            OGR_F_SetFID(hFeat, nRasterID);
            OGR_F_SetFieldString(hFeat, 0, osSourceName);
            OGR_F_SetFieldInteger(hFeat, 1, nTileId ++);
            OGR_F_SetFieldInteger(hFeat, 2, nReqXSize);
            OGR_F_SetFieldInteger(hFeat, 3, nReqYSize);
            OGR_F_SetFieldDouble(hFeat, 4, dfXResolution);
            OGR_F_SetFieldDouble(hFeat, 5, dfYResolution);
            
            double minx, maxx, maxy, miny;
            minx = adfGeoTransform[0] +
                (nBlockXSize * nBlockXOff) * dfXResolution;
            maxx = adfGeoTransform[0] +
                (nBlockXSize * nBlockXOff + nReqXSize) * dfXResolution;
            maxy = adfGeoTransform[3] +
                (nBlockYSize * nBlockYOff) * (-dfYResolution);
            miny = adfGeoTransform[3] +
                (nBlockYSize * nBlockYOff + nReqYSize) * (-dfYResolution);
            
            OGRGeometryH hRectangle = OGR_G_CreateGeometry(wkbPolygon);
            OGRGeometryH hLinearRing = OGR_G_CreateGeometry(wkbLinearRing);
            OGR_G_AddPoint_2D(hLinearRing, minx, miny);
            OGR_G_AddPoint_2D(hLinearRing, minx, maxy);
            OGR_G_AddPoint_2D(hLinearRing, maxx, maxy);
            OGR_G_AddPoint_2D(hLinearRing, maxx, miny);
            OGR_G_AddPoint_2D(hLinearRing, minx, miny);
            OGR_G_AddGeometryDirectly(hRectangle, hLinearRing);
            
            OGR_F_SetGeometryDirectly(hFeat, hRectangle);
            
            OGR_L_CreateFeature(hMetadataLayer, hFeat);
            OGR_F_Destroy(hFeat);
            
            nBlocks++;
            if (pfnProgress && !pfnProgress(1.0 * nBlocks / nTotalBlocks,
                                            NULL, pProgressData))
                eErr = CE_Failure;
        }
    }
    
    nLimitOvrCount = -1;
    
    if (eErr == CE_None)
        OGR_DS_ExecuteSQL(hDS, "COMMIT", NULL, NULL);
    else
        OGR_DS_ExecuteSQL(hDS, "ROLLBACK", NULL, NULL);
    
    VSIFree(pabyMEMDSBuffer);
    
/* -------------------------------------------------------------------- */
/*      Update raster_pyramids table                                    */
/* -------------------------------------------------------------------- */
    if (eErr == CE_None)
    {
        OGRLayerH hRasterPyramidsLyr = OGR_DS_GetLayerByName(hDS, "raster_pyramids");
        if (hRasterPyramidsLyr == NULL)
        {
            osSQL.Printf   ("CREATE TABLE raster_pyramids ("
                            "table_prefix TEXT NOT NULL,"
                            "pixel_x_size DOUBLE NOT NULL,"
                            "pixel_y_size DOUBLE NOT NULL,"
                            "tile_count INTEGER NOT NULL)");
            OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
            
            /* Re-open the DB to take into account the new tables*/
            OGRReleaseDataSource(hDS);
            
            CPLString osOldVal = CPLGetConfigOption("SQLITE_LIST_ALL_TABLES", "FALSE");
            CPLSetThreadLocalConfigOption("SQLITE_LIST_ALL_TABLES", "TRUE");
            hDS = OGROpen(osFileName.c_str(), TRUE, NULL);
            CPLSetThreadLocalConfigOption("SQLITE_LIST_ALL_TABLES", osOldVal.c_str());
        }

        /* Insert base resolution into raster_pyramids if not already done */
        int bHasBaseResolution = FALSE;
        osSQL.Printf("SELECT * FROM raster_pyramids WHERE "
                     "table_prefix = '%s' AND pixel_x_size >= %.15f AND pixel_x_size <= %.15f AND "
                     "pixel_y_size >= %.15f AND pixel_y_size <= %.15f",
                     osTableName.c_str(),
                     padfXResolutions[0] - 1e-15, padfXResolutions[0] + 1e-15,
                     padfYResolutions[0] - 1e-15, padfYResolutions[0] + 1e-15);
        hSQLLyr = OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
        if (hSQLLyr)
        {
            OGRFeatureH hFeat = OGR_L_GetNextFeature(hSQLLyr);
            if (hFeat)
            {
                bHasBaseResolution = TRUE;
                OGR_F_Destroy(hFeat);
            }
            OGR_DS_ReleaseResultSet(hDS, hSQLLyr);
        }

        if (!bHasBaseResolution)
        {
            osSQL.Printf("SELECT COUNT(*) FROM \"%s\" WHERE "
                          "pixel_x_size >= %.15f AND pixel_x_size <= %.15f AND "
                          "pixel_y_size >= %.15f AND pixel_y_size <= %.15f",
                          osMetatadataLayer.c_str(),
                          padfXResolutions[0] - 1e-15, padfXResolutions[0] + 1e-15,
                          padfYResolutions[0] - 1e-15, padfYResolutions[0] + 1e-15);

            int nBlocksMainRes = 0;

            hSQLLyr = OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
            if (hSQLLyr)
            {
                OGRFeatureH hFeat = OGR_L_GetNextFeature(hSQLLyr);
                if (hFeat)
                {
                    nBlocksMainRes = OGR_F_GetFieldAsInteger(hFeat, 0);
                    OGR_F_Destroy(hFeat);
                }
                OGR_DS_ReleaseResultSet(hDS, hSQLLyr);
            }

            osSQL.Printf("INSERT INTO raster_pyramids "
                         "( table_prefix, pixel_x_size, pixel_y_size, tile_count ) "
                         "VALUES ( '%s', %.18f, %.18f, %d )",
                         osTableName.c_str(), padfXResolutions[0], padfYResolutions[0],
                         nBlocksMainRes);
            OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
        }

        osSQL.Printf("INSERT INTO raster_pyramids "
                     "( table_prefix, pixel_x_size, pixel_y_size, tile_count ) "
                     "VALUES ( '%s', %.18f, %.18f, %d )",
                     osTableName.c_str(), dfXResolution, dfYResolution,
                     nTotalBlocks);
        OGR_DS_ExecuteSQL(hDS, osSQL.c_str(), NULL, NULL);
    }

    return eErr;
}
Ejemplo n.º 11
0
int create_grid(char *infile, char *outfile, int gridsize, char *format, char *layer) {

	OGRSFDriverH out_driver;
	OGRDataSourceH out_ds;
	OGRLayerH out_layer;
	OGRFieldDefnH field;
	OGRFeatureH feat;
	OGRGeometryH geom;
	morph *mgrid;
	int xstep, ystep, step;
	double topleftx, toplefty, weres, nsres, rot1, rot2;
	int i,j, fid, row, col;
	
	
	OGRRegisterAll();
	
	// Read the morph grid file.
	mgrid = read_grid(infile);
	if (mgrid == NULL) {
		fprintf(stderr, "Error. Unable to read input morph file '%s'.\n", infile);
		exit(1);
	}
	
	// Create the ouptut layer.
	out_driver = OGRGetDriverByName(format);
	if (out_driver == NULL) {
		fprintf(stderr, "Error. Driver for format '%s' not available.\n", format);
		exit(1);
	}
	out_ds = OGR_Dr_CreateDataSource(out_driver, outfile, NULL);
	if (out_ds == NULL) {
		fprintf(stderr, "Error. Unable to create output data source.\n");
		exit(1);
	}
	out_layer = OGR_DS_CreateLayer(out_ds, layer, NULL, wkbLineString, NULL);
	if (out_layer == NULL) {
		fprintf(stderr, "Error. Unable to create output layer.\n");
		exit(1);
	}
	
	// Add the attributes to the new layer.
	field = OGR_Fld_Create("ID", OFTInteger);
	OGR_Fld_SetWidth(field, 11);
	if (OGR_L_CreateField(out_layer, field, TRUE) != OGRERR_NONE) {
		fprintf(stderr, "Error. Creating ID attribute failed.\n");
		exit(1);
	}
	OGR_Fld_Destroy(field);
	
	field = OGR_Fld_Create("ROW", OFTInteger);
	OGR_Fld_SetWidth(field, 6);
	if (OGR_L_CreateField(out_layer, field, TRUE) != OGRERR_NONE) {
		fprintf(stderr, "Error. Creating ROW attribute failed.\n");
		exit(1);
	}
	OGR_Fld_Destroy(field);
	
	field = OGR_Fld_Create("COL", OFTInteger);
	OGR_Fld_SetWidth(field, 6);
	if (OGR_L_CreateField(out_layer, field, TRUE) != OGRERR_NONE) {
		fprintf(stderr, "Error. Creating COL attribute failed.\n");
		exit(1);
	}
	OGR_Fld_Destroy(field);
	
	// Compute the step size.
	xstep = mgrid->xsize / gridsize;
	if (xstep < 1) {
		xstep = 1;
	}
	if (xstep > (mgrid->xsize / 2)) {
		xstep = mgrid->xsize / 2;
	}
	ystep = mgrid->ysize / gridsize;
	if (ystep < 1) {
		ystep = 1;
	}
	if (ystep > (mgrid->ysize / 2)) {
		ystep = mgrid->ysize / 2;
	}
	if (xstep < ystep) {
		step = ystep;
	} else {
		step = xstep;
	}
	
	// Read the georeference
	topleftx = mgrid->georef[0];
	weres = mgrid->georef[1];
	rot1 = mgrid->georef[2];
	toplefty = mgrid->georef[3];
	rot2 = mgrid->georef[4];
	nsres = mgrid->georef[5];
	
	// Write all horizontal lines.
	fid = 1;
	row = 1;
	for (j = 0; j < mgrid->ysize; j += step) {
		// Create a new Feature with the projected coordinates.
		feat = OGR_F_Create(OGR_L_GetLayerDefn(out_layer));
		OGR_F_SetFieldInteger(feat, OGR_F_GetFieldIndex(feat, "ID"), fid);
		OGR_F_SetFieldInteger(feat, OGR_F_GetFieldIndex(feat, "ROW"), row);
		OGR_F_SetFieldInteger(feat, OGR_F_GetFieldIndex(feat, "COL"), 0);

		// Create a new geometry object.
		geom = OGR_G_CreateGeometry(wkbLineString);
		for (i = 0; i < mgrid->xsize; i++) {
			OGR_G_SetPoint_2D(
							  geom, 
							  i, 
							  topleftx + mgrid->x[i][j]*weres + mgrid->y[i][j]*rot1, 
							  toplefty + mgrid->x[i][j]*rot2 + mgrid->y[i][j]*nsres);
		}
		OGR_F_SetGeometry(feat, geom);
		OGR_G_DestroyGeometry(geom);
		
		// Write the feature to the output vector layer.
		if (OGR_L_CreateFeature(out_layer, feat) != OGRERR_NONE) {
			fprintf(stderr, "Error. Unable to create new feature.\n");
			exit(1);
		}
		OGR_F_Destroy(feat);
		
		row++;
		fid++;
	}
	
	// Write all vertical lines.
	col = 1;
	for (i = 0; i < mgrid->xsize; i += step) {
		// Create a new Feature with the projected coordinates.
		feat = OGR_F_Create(OGR_L_GetLayerDefn(out_layer));
		OGR_F_SetFieldInteger(feat, OGR_F_GetFieldIndex(feat, "ID"), fid);
		OGR_F_SetFieldInteger(feat, OGR_F_GetFieldIndex(feat, "ROW"), 0);
		OGR_F_SetFieldInteger(feat, OGR_F_GetFieldIndex(feat, "COL"), col);
		
		// Create a new geometry object.
		geom = OGR_G_CreateGeometry(wkbLineString);
		for (j = 0; j < mgrid->ysize; j++) {
			OGR_G_SetPoint_2D(
							  geom, 
							  j, 
							  topleftx + mgrid->x[i][j]*weres + mgrid->y[i][j]*rot1, 
							  toplefty + mgrid->x[i][j]*rot2 + mgrid->y[i][j]*nsres);
		}
		OGR_F_SetGeometry(feat, geom);
		OGR_G_DestroyGeometry(geom);
		
		// Write the feature to the output vector layer.
		if (OGR_L_CreateFeature(out_layer, feat) != OGRERR_NONE) {
			fprintf(stderr, "Error. Unable to create new feature.\n");
			exit(1);
		}
		OGR_F_Destroy(feat);
		
		col++;
		fid++;
	}

	// Close the datasources and free the memory.
	OGR_DS_Destroy(out_ds);
	free_morph(mgrid);
	
	return 0;
}
Ejemplo n.º 12
0
static CPLErr OGRPolygonContourWriter( double dfLevelMin, double dfLevelMax,
                                const OGRMultiPolygon& multipoly,
                                void *pInfo )

{
    OGRContourWriterInfo *poInfo = static_cast<OGRContourWriterInfo *>(pInfo);

    OGRFeatureDefnH hFDefn =
        OGR_L_GetLayerDefn( static_cast<OGRLayerH>(poInfo->hLayer) );

    OGRFeatureH hFeat = OGR_F_Create( hFDefn );

    if( poInfo->nIDField != -1 )
        OGR_F_SetFieldInteger( hFeat, poInfo->nIDField, poInfo->nNextID++ );

    if( poInfo->nElevFieldMin != -1 )
        OGR_F_SetFieldDouble( hFeat, poInfo->nElevFieldMin, dfLevelMin );

    if( poInfo->nElevFieldMax != -1 )
        OGR_F_SetFieldDouble( hFeat, poInfo->nElevFieldMax, dfLevelMax );

    const bool bHasZ = wkbHasZ(OGR_FD_GetGeomType(hFDefn));
    OGRGeometryH hGeom = OGR_G_CreateGeometry(
        bHasZ ? wkbMultiPolygon25D : wkbMultiPolygon );

    for ( int iPart = 0; iPart < multipoly.getNumGeometries(); iPart++ )
    {
        OGRPolygon* poNewPoly = new OGRPolygon();
        const OGRPolygon* poPolygon = static_cast<const OGRPolygon*>(multipoly.getGeometryRef(iPart));

        for ( int iRing = 0; iRing < poPolygon->getNumInteriorRings() + 1; iRing++ )
        {
            const OGRLinearRing* poRing = iRing == 0 ?
                poPolygon->getExteriorRing()
                : poPolygon->getInteriorRing(iRing - 1);

            OGRLinearRing* poNewRing = new OGRLinearRing();
            for ( int iPoint = 0; iPoint < poRing->getNumPoints(); iPoint++ )
            {
                const double dfX = poInfo->adfGeoTransform[0]
                    + poInfo->adfGeoTransform[1] * poRing->getX(iPoint)
                    + poInfo->adfGeoTransform[2] * poRing->getY(iPoint);
                const double dfY = poInfo->adfGeoTransform[3]
                    + poInfo->adfGeoTransform[4] * poRing->getX(iPoint)
                    + poInfo->adfGeoTransform[5] * poRing->getY(iPoint);
                if( bHasZ )
                    OGR_G_SetPoint( OGRGeometry::ToHandle( poNewRing ), iPoint, dfX, dfY, dfLevelMax );
                else
                    OGR_G_SetPoint_2D( OGRGeometry::ToHandle( poNewRing ), iPoint, dfX, dfY );
            }
            poNewPoly->addRingDirectly( poNewRing );
        }
        OGR_G_AddGeometryDirectly( hGeom, OGRGeometry::ToHandle( poNewPoly ) );
    }

    OGR_F_SetGeometryDirectly( hFeat, hGeom );

    const OGRErr eErr =
        OGR_L_CreateFeature(static_cast<OGRLayerH>(poInfo->hLayer), hFeat);
    OGR_F_Destroy( hFeat );

    return eErr == OGRERR_NONE ? CE_None : CE_Failure;
}
Ejemplo n.º 13
0
int main(int argc, char *argv[])
{
    const char *index_filename = NULL;
    const char *tile_index = "location";
    int		i_arg, ti_field;
    OGRDataSourceH hTileIndexDS;
    OGRLayerH hLayer = NULL;
    OGRFeatureDefnH hFDefn;
    int write_absolute_path = FALSE;
    char* current_path = NULL;
    int i;
    int nExistingFiles;
    int skip_different_projection = FALSE;
    char** existingFilesTab = NULL;
    int alreadyExistingProjectionRefValid = FALSE;
    char* alreadyExistingProjectionRef = NULL;
    char* index_filename_mod;
    int bExists;
    VSIStatBuf sStatBuf;
    const char *pszTargetSRS = "";
    int bSetTargetSRS = FALSE;
    OGRSpatialReferenceH hTargetSRS = NULL;

    /* Check that we are running against at least GDAL 1.4 */
    /* Note to developers : if we use newer API, please change the requirement */
    if (atoi(GDALVersionInfo("VERSION_NUM")) < 1400)
    {
        fprintf(stderr, "At least, GDAL >= 1.4.0 is required for this version of %s, "
                "which was compiled against GDAL %s\n", argv[0], GDAL_RELEASE_NAME);
        exit(1);
    }

    GDALAllRegister();
    OGRRegisterAll();

    argc = GDALGeneralCmdLineProcessor( argc, &argv, 0 );
    if( argc < 1 )
        exit( -argc );

/* -------------------------------------------------------------------- */
/*      Get commandline arguments other than the GDAL raster filenames. */
/* -------------------------------------------------------------------- */
    for( i_arg = 1; i_arg < argc; i_arg++ )
    {
        if( EQUAL(argv[i_arg], "--utility_version") )
        {
            printf("%s was compiled against GDAL %s and is running against GDAL %s\n",
                   argv[0], GDAL_RELEASE_NAME, GDALVersionInfo("RELEASE_NAME"));
            return 0;
        }
        else if( strcmp(argv[i_arg],"-tileindex") == 0 )
        {
            tile_index = argv[++i_arg];
        }
        else if( strcmp(argv[i_arg],"-t_srs") == 0 )
        {
            pszTargetSRS = argv[++i_arg];
            bSetTargetSRS = TRUE;
        }
        else if ( strcmp(argv[i_arg],"-write_absolute_path") == 0 )
        {
            write_absolute_path = TRUE;
        }
        else if ( strcmp(argv[i_arg],"-skip_different_projection") == 0 )
        {
            skip_different_projection = TRUE;
        }
        else if( argv[i_arg][0] == '-' )
            Usage();
        else if( index_filename == NULL )
        {
            index_filename = argv[i_arg];
            i_arg++;
            break;
        }
    }
 
    if( index_filename == NULL || i_arg == argc )
        Usage();

/* -------------------------------------------------------------------- */
/*      Create and validate target SRS if given.                        */
/* -------------------------------------------------------------------- */
   if( bSetTargetSRS )
   {  
       if ( skip_different_projection )
       {
           fprintf( stderr, 
                    "Warning : -skip_different_projection does not apply "
                    "when -t_srs is requested.\n" );
       }
       hTargetSRS = OSRNewSpatialReference("");
       if( OSRSetFromUserInput( hTargetSRS, pszTargetSRS ) != CE_None )
       {
           OSRDestroySpatialReference( hTargetSRS );
           fprintf( stderr, "Invalid target SRS `%s'.\n", 
                    pszTargetSRS );
           exit(1);
       }
   }

/* -------------------------------------------------------------------- */
/*      Open or create the target shapefile and DBF file.               */
/* -------------------------------------------------------------------- */
    index_filename_mod = CPLStrdup(CPLResetExtension(index_filename, "shp"));

    bExists = (VSIStat(index_filename_mod, &sStatBuf) == 0);
    if (!bExists)
    {
        CPLFree(index_filename_mod);
        index_filename_mod = CPLStrdup(CPLResetExtension(index_filename, "SHP"));
        bExists = (VSIStat(index_filename_mod, &sStatBuf) == 0);
    }
    CPLFree(index_filename_mod);

    if (bExists)
    {
        hTileIndexDS = OGROpen( index_filename, TRUE, NULL );
        if (hTileIndexDS != NULL)
        {
            hLayer = OGR_DS_GetLayer(hTileIndexDS, 0);
        }
    }
    else
    {
        OGRSFDriverH hDriver;
        const char* pszDriverName = "ESRI Shapefile";

        printf( "Creating new index file...\n" );
        hDriver = OGRGetDriverByName( pszDriverName );
        if( hDriver == NULL )
        {
            printf( "%s driver not available.\n", pszDriverName );
            exit( 1 );
        }

        hTileIndexDS = OGR_Dr_CreateDataSource( hDriver, index_filename, NULL );
        if (hTileIndexDS)
        {
            char* pszLayerName = CPLStrdup(CPLGetBasename(index_filename));

            /* get spatial reference for output file from target SRS (if set) */
            /* or from first input file */
            OGRSpatialReferenceH hSpatialRef = NULL;
            if( bSetTargetSRS )
            {
                hSpatialRef = OSRClone( hTargetSRS );
            }
            else
            {
                GDALDatasetH hDS = GDALOpen( argv[i_arg], GA_ReadOnly );
                if (hDS)
                {
                    const char* pszWKT = GDALGetProjectionRef(hDS);
                    if (pszWKT != NULL && pszWKT[0] != '\0')
                    {
                        hSpatialRef = OSRNewSpatialReference(pszWKT);
                    }
                    GDALClose(hDS);
                }
            }

            hLayer = OGR_DS_CreateLayer( hTileIndexDS, pszLayerName, hSpatialRef, wkbPolygon, NULL );
            CPLFree(pszLayerName);
            if (hSpatialRef)
                OSRRelease(hSpatialRef);

            if (hLayer)
            {
                OGRFieldDefnH hFieldDefn = OGR_Fld_Create( tile_index, OFTString );
                OGR_Fld_SetWidth( hFieldDefn, 255);
                OGR_L_CreateField( hLayer, hFieldDefn, TRUE );
                OGR_Fld_Destroy(hFieldDefn);
            }
        }
    }

    if( hTileIndexDS == NULL || hLayer == NULL )
    {
        fprintf( stderr, "Unable to open/create shapefile `%s'.\n", 
                 index_filename );
        exit(2);
    }

    hFDefn = OGR_L_GetLayerDefn(hLayer);

    for( ti_field = 0; ti_field < OGR_FD_GetFieldCount(hFDefn); ti_field++ )
    {
        OGRFieldDefnH hFieldDefn = OGR_FD_GetFieldDefn( hFDefn, ti_field );
        if( strcmp(OGR_Fld_GetNameRef(hFieldDefn), tile_index) == 0 )
            break;
    }

    if( ti_field == OGR_FD_GetFieldCount(hFDefn) )
    {
        fprintf( stderr, "Unable to find field `%s' in DBF file `%s'.\n", 
                 tile_index, index_filename );
        exit(2);
    }

    /* Load in memory existing file names in SHP */
    nExistingFiles = OGR_L_GetFeatureCount(hLayer, FALSE);
    if (nExistingFiles)
    {
        OGRFeatureH hFeature;
        existingFilesTab = (char**)CPLMalloc(nExistingFiles * sizeof(char*));
        for(i=0;i<nExistingFiles;i++)
        {
            hFeature = OGR_L_GetNextFeature(hLayer);
            existingFilesTab[i] = CPLStrdup(OGR_F_GetFieldAsString( hFeature, ti_field ));
            if (i == 0)
            {
                GDALDatasetH hDS = GDALOpen(existingFilesTab[i], GA_ReadOnly );
                if (hDS)
                {
                    alreadyExistingProjectionRefValid = TRUE;
                    alreadyExistingProjectionRef = CPLStrdup(GDALGetProjectionRef(hDS));
                    GDALClose(hDS);
                }
            }
            OGR_F_Destroy( hFeature );
        }
    }

    if (write_absolute_path)
    {
        current_path = CPLGetCurrentDir();
        if (current_path == NULL)
        {
            fprintf( stderr, "This system does not support the CPLGetCurrentDir call. "
                             "The option -write_absolute_path will have no effect\n");
            write_absolute_path = FALSE;
        }
    }

/* -------------------------------------------------------------------- */
/*      loop over GDAL files, processing.                               */
/* -------------------------------------------------------------------- */
    for( ; i_arg < argc; i_arg++ )
    {
        GDALDatasetH	hDS;
        double	        adfGeoTransform[6];
        double		adfX[5], adfY[5];
        int		nXSize, nYSize;
        char* fileNameToWrite;
        const char* projectionRef;
        VSIStatBuf sStatBuf;
        int k;
        OGRFeatureH hFeature;
        OGRGeometryH hPoly, hRing;

        /* Make sure it is a file before building absolute path name */
        if (write_absolute_path && CPLIsFilenameRelative( argv[i_arg] ) &&
            VSIStat( argv[i_arg], &sStatBuf ) == 0)
        {
            fileNameToWrite = CPLStrdup(CPLProjectRelativeFilename(current_path, argv[i_arg]));
        }
        else
        {
            fileNameToWrite = CPLStrdup(argv[i_arg]);
        }

        /* Checks that file is not already in tileindex */
        for(i=0;i<nExistingFiles;i++)
        {
            if (EQUAL(fileNameToWrite, existingFilesTab[i]))
            {
                fprintf(stderr, "File %s is already in tileindex. Skipping it.\n",
                        fileNameToWrite);
                break;
            }
        }
        if (i != nExistingFiles)
        {
            CPLFree(fileNameToWrite);
            continue;
        }

        hDS = GDALOpen( argv[i_arg], GA_ReadOnly );
        if( hDS == NULL )
        {
            fprintf( stderr, "Unable to open %s, skipping.\n", 
                     argv[i_arg] );
            CPLFree(fileNameToWrite);
            continue;
        }

        GDALGetGeoTransform( hDS, adfGeoTransform );
        if( adfGeoTransform[0] == 0.0 
            && adfGeoTransform[1] == 1.0
            && adfGeoTransform[3] == 0.0
            && ABS(adfGeoTransform[5]) == 1.0 )
        {
            fprintf( stderr, 
                     "It appears no georeferencing is available for\n"
                     "`%s', skipping.\n", 
                     argv[i_arg] );
            GDALClose( hDS );
            CPLFree(fileNameToWrite);
            continue;
        }

        projectionRef = GDALGetProjectionRef(hDS);

        /* if not set target srs, test that the current file uses same projection as others */
        if( !bSetTargetSRS )
        { 
            if (alreadyExistingProjectionRefValid)
            {
                int projectionRefNotNull, alreadyExistingProjectionRefNotNull;
                projectionRefNotNull = projectionRef && projectionRef[0];
                alreadyExistingProjectionRefNotNull = alreadyExistingProjectionRef && alreadyExistingProjectionRef[0];
                if ((projectionRefNotNull &&
                     alreadyExistingProjectionRefNotNull &&
                     EQUAL(projectionRef, alreadyExistingProjectionRef) == 0) ||
                    (projectionRefNotNull != alreadyExistingProjectionRefNotNull))
                {
                    fprintf(stderr, "Warning : %s is not using the same projection system as "
                            "other files in the tileindex.\n"
			    "This may cause problems when using it in MapServer for example.\n"
                            "Use -t_srs option to set target projection system (not supported by MapServer).\n"
                            "%s\n", argv[i_arg],
                            (skip_different_projection) ? "Skipping this file." : "");
                    if (skip_different_projection)
                    {
                        CPLFree(fileNameToWrite);
                        GDALClose( hDS );
                        continue;
                    }
                }
            }
            else
            {
                alreadyExistingProjectionRefValid = TRUE;
                alreadyExistingProjectionRef = CPLStrdup(projectionRef);
            }
        }

        nXSize = GDALGetRasterXSize( hDS );
        nYSize = GDALGetRasterYSize( hDS );
        
        adfX[0] = adfGeoTransform[0] 
            + 0 * adfGeoTransform[1] 
            + 0 * adfGeoTransform[2];
        adfY[0] = adfGeoTransform[3] 
            + 0 * adfGeoTransform[4] 
            + 0 * adfGeoTransform[5];
        
        adfX[1] = adfGeoTransform[0] 
            + nXSize * adfGeoTransform[1] 
            + 0 * adfGeoTransform[2];
        adfY[1] = adfGeoTransform[3] 
            + nXSize * adfGeoTransform[4] 
            + 0 * adfGeoTransform[5];
        
        adfX[2] = adfGeoTransform[0] 
            + nXSize * adfGeoTransform[1] 
            + nYSize * adfGeoTransform[2];
        adfY[2] = adfGeoTransform[3] 
            + nXSize * adfGeoTransform[4] 
            + nYSize * adfGeoTransform[5];
        
        adfX[3] = adfGeoTransform[0] 
            + 0 * adfGeoTransform[1] 
            + nYSize * adfGeoTransform[2];
        adfY[3] = adfGeoTransform[3] 
            + 0 * adfGeoTransform[4] 
            + nYSize * adfGeoTransform[5];
        
        adfX[4] = adfGeoTransform[0] 
            + 0 * adfGeoTransform[1] 
            + 0 * adfGeoTransform[2];
        adfY[4] = adfGeoTransform[3] 
            + 0 * adfGeoTransform[4] 
            + 0 * adfGeoTransform[5];

        /* if set target srs, do the forward transformation of all points */
        if( bSetTargetSRS )
        {
            OGRSpatialReferenceH hSourceSRS = NULL;
            OGRCoordinateTransformationH hCT = NULL;
            hSourceSRS = OSRNewSpatialReference( projectionRef );
            if( hSourceSRS && !OSRIsSame( hSourceSRS, hTargetSRS ) )
            {
                hCT = OCTNewCoordinateTransformation( hSourceSRS, hTargetSRS );
                if( hCT == NULL || !OCTTransform( hCT, 5, adfX, adfY, NULL ) )
                {
                    fprintf( stderr, 
                             "Warning : unable to transform points from source SRS `%s' to target SRS `%s'\n"
                             "for file `%s' - file skipped\n", 
                             projectionRef, pszTargetSRS, fileNameToWrite );
                    if ( hCT ) 
                        OCTDestroyCoordinateTransformation( hCT );
                    if ( hSourceSRS )
                        OSRDestroySpatialReference( hSourceSRS );
                    continue;
                }
                if ( hCT ) 
                    OCTDestroyCoordinateTransformation( hCT );
            }
            if ( hSourceSRS )
                OSRDestroySpatialReference( hSourceSRS );
        }

        hFeature = OGR_F_Create( OGR_L_GetLayerDefn( hLayer ) );
        OGR_F_SetFieldString( hFeature, ti_field, fileNameToWrite );

        hPoly = OGR_G_CreateGeometry(wkbPolygon);
        hRing = OGR_G_CreateGeometry(wkbLinearRing);
        for(k=0;k<5;k++)
            OGR_G_SetPoint_2D(hRing, k, adfX[k], adfY[k]);
        OGR_G_AddGeometryDirectly( hPoly, hRing );
        OGR_F_SetGeometryDirectly( hFeature, hPoly );

        if( OGR_L_CreateFeature( hLayer, hFeature ) != OGRERR_NONE )
        {
           printf( "Failed to create feature in shapefile.\n" );
           break;
        }

        OGR_F_Destroy( hFeature );

        
        CPLFree(fileNameToWrite);

        GDALClose( hDS );
    }
    
    CPLFree(current_path);
    
    if (nExistingFiles)
    {
        for(i=0;i<nExistingFiles;i++)
        {
            CPLFree(existingFilesTab[i]);
        }
        CPLFree(existingFilesTab);
    }
    CPLFree(alreadyExistingProjectionRef);

    if ( hTargetSRS )
        OSRDestroySpatialReference( hTargetSRS );

    OGR_DS_Destroy( hTileIndexDS );
    
    GDALDestroyDriverManager();
    OGRCleanupAll();
    CSLDestroy(argv);
    
    exit( 0 );
} 
Ejemplo n.º 14
0
  int Delaunay(maps*& conf,maps*& inputs,maps*& outputs){
#ifdef DEBUG
    fprintf(stderr,"\nService internal print\nStarting\n");
#endif
    maps* cursor=inputs;
    OGRGeometryH geometry,res;
    int bufferDistance;
    map* tmpm=NULL;
    OGRRegisterAll();

    std::vector<Point> points;
    if(int res=parseInput(conf,inputs,&points,"/vsimem/tmp")!=SERVICE_SUCCEEDED)
      return res;

    DelaunayT T;
    T.insert(points.begin(), points.end());

    /* -------------------------------------------------------------------- */
    /*      Try opening the output datasource as an existing, writable      */
    /* -------------------------------------------------------------------- */
#if GDAL_VERSION_MAJOR >= 2
    GDALDataset *poODS;
    GDALDriverManager* poR=GetGDALDriverManager();
    GDALDriver          *poDriver = NULL;
#else
    OGRDataSource       *poODS;    
    OGRSFDriverRegistrar *poR = OGRSFDriverRegistrar::GetRegistrar();
    OGRSFDriver          *poDriver = NULL;
#endif
    int                  iDriver;
    map *tmpMap=getMapFromMaps(outputs,"Result","mimeType");
    const char *oDriver;
    oDriver="GeoJSON";
    if(tmpMap!=NULL){
      if(strcmp(tmpMap->value,"text/xml")==0){
	oDriver="GML";
      }
    }
    
    for( iDriver = 0;
	 iDriver < poR->GetDriverCount() && poDriver == NULL;
	 iDriver++ )
      {
#ifdef DEBUG
#if GDAL_VERSION_MAJOR >= 2
	fprintf(stderr,"D:%s\n",poR->GetDriver(iDriver)->GetDescription());
#else
	fprintf(stderr,"D:%s\n",poR->GetDriver(iDriver)->GetName());
#endif
#endif
	if( EQUAL(
#if GDAL_VERSION_MAJOR >= 2
		  poR->GetDriver(iDriver)->GetDescription()
#else
		  poR->GetDriver(iDriver)->GetName()
#endif
		  ,
		  oDriver) )
	  {
	    poDriver = poR->GetDriver(iDriver);
	  }
      }

    if( poDriver == NULL )
      {
	char emessage[8192];
	sprintf( emessage, "Unable to find driver `%s'.\n", oDriver );
	sprintf( emessage,  "%sThe following drivers are available:\n",emessage );
        
	for( iDriver = 0; iDriver < poR->GetDriverCount(); iDriver++ )
	  {
#if GDAL_VERSION_MAJOR >= 2
	    sprintf( emessage,  "%s  -> `%s'\n", emessage, poR->GetDriver(iDriver)->GetDescription() );
#else
	    sprintf( emessage,  "%s  -> `%s'\n", emessage, poR->GetDriver(iDriver)->GetName() );
#endif
	  }

	setMapInMaps(conf,"lenv","message",emessage);
	return SERVICE_FAILED;

      }

#if GDAL_VERSION_MAJOR >=2
    if( !CPLTestBool( CSLFetchNameValueDef(poDriver->GetMetadata(), GDAL_DCAP_CREATE, "FALSE") ) )
#else
    if( !poDriver->TestCapability( ODrCCreateDataSource ) )
#endif
      {
	char emessage[1024];
	sprintf( emessage,  "%s driver does not support data source creation.\n",
		 "json" );
	setMapInMaps(conf,"lenv","message",emessage);
	return SERVICE_FAILED;
      }

    /* -------------------------------------------------------------------- */
    /*      Create the output data source.                                  */
    /* -------------------------------------------------------------------- */
    char *pszDestDataSource=(char*)malloc(100);
    char **papszDSCO=NULL;
    sprintf(pszDestDataSource,"/vsimem/result_%d",getpid());
#if GDAL_VERSION_MAJOR >=2
    poODS = poDriver->Create( pszDestDataSource, 0, 0, 0, GDT_Unknown, papszDSCO );
#else
    poODS = poDriver->CreateDataSource( pszDestDataSource, papszDSCO );
#endif
    if( poODS == NULL ){
      char emessage[1024];      
      sprintf( emessage,  "%s driver failed to create %s\n", 
	       "json", pszDestDataSource );
      setMapInMaps(conf,"lenv","message",emessage);
      return SERVICE_FAILED;
    }

    /* -------------------------------------------------------------------- */
    /*      Create the layer.                                               */
    /* -------------------------------------------------------------------- */
    if( !poODS->TestCapability( ODsCCreateLayer ) )
      {
	char emessage[1024];
	sprintf( emessage, 
		 "Layer %s not found, and CreateLayer not supported by driver.", 
		 "Result" );
	setMapInMaps(conf,"lenv","message",emessage);
	return SERVICE_FAILED;
      }
    
    CPLErrorReset();
    
    OGRLayer *poDstLayer = poODS->CreateLayer( "Result", NULL,wkbPolygon,NULL);
    if( poDstLayer == NULL ){
      setMapInMaps(conf,"lenv","message","Layer creation failed.\n");
      return SERVICE_FAILED;
    }


    for(DelaunayT::Finite_faces_iterator fit = T.finite_faces_begin();
	fit != T.finite_faces_end(); ++fit) {
      DelaunayT::Face_handle face = fit;
      OGRFeatureH hFeature = OGR_F_Create( OGR_L_GetLayerDefn( poDstLayer ) );
      OGRGeometryH hCollection = OGR_G_CreateGeometry( wkbGeometryCollection );
      OGRGeometryH currLine=OGR_G_CreateGeometry(wkbLinearRing);
      OGRGeometryH currPoly=OGR_G_CreateGeometry(wkbPolygon);
      OGR_G_AddPoint_2D(currLine,T.triangle(face)[0].x(),T.triangle(face)[0].y());
      OGR_G_AddPoint_2D(currLine,T.triangle(face)[1].x(),T.triangle(face)[1].y());
      OGR_G_AddPoint_2D(currLine,T.triangle(face)[2].x(),T.triangle(face)[2].y());
      OGR_G_AddPoint_2D(currLine,T.triangle(face)[0].x(),T.triangle(face)[0].y());
      OGR_G_AddGeometryDirectly( currPoly, currLine ); 
      OGR_G_AddGeometryDirectly( hCollection, currPoly ); 
      OGR_F_SetGeometry( hFeature, hCollection ); 
      OGR_G_DestroyGeometry(hCollection);
      if( OGR_L_CreateFeature( poDstLayer, hFeature ) != OGRERR_NONE ){
	setMapInMaps(conf,"lenv","message","Failed to create feature in file.\n");
	return SERVICE_FAILED;
      }
      OGR_F_Destroy( hFeature );
    }
    OGR_DS_Destroy( poODS );

#ifdef DEBUG
    std::cerr << "The Voronoi diagram has " << ns << " finite edges "
	      << " and " << nr << " rays" << std::endl;
#endif

    char *res1=readVSIFile(conf,pszDestDataSource);
    if(res1==NULL)
      return SERVICE_FAILED;

    setMapInMaps(outputs,"Result","value",res1);
    free(res1);

    if(strcmp(oDriver,"GML")==0)
      setMapInMaps(outputs,"Result","mimeType","text/xml");
    else
      setMapInMaps(outputs,"Result","mimeType","application/json");

    setMapInMaps(outputs,"Result","encoding","UTF-8");
    OGRCleanupAll();
    
    return SERVICE_SUCCEEDED;
  }
Ejemplo n.º 15
0
int main(int argc, char* argv[])
{
    const char     *pszFormat = "ESRI Shapefile";
    char           *pszLayerName = NULL;
    const char     *pszSrcFilename = NULL, *pszDstFilename = NULL;
    int             iBand = 1;
    GDALDatasetH    hDS;
    GDALRasterBandH hBand;
    int             nXSize, nYSize;
    int             i, j;
    FILE           *fOut = NULL;
    double         *padfBuffer;
    double          adfGeotransform[6];
    OGRSFDriverH    hOGRDriver;
    OGRDataSourceH  hOGRDS;
    OGRLayerH       hOGRLayer;
    OGRwkbGeometryType eType = wkbPoint25D;
    int             xStep = 1, yStep = 1;

    OGRRegisterAll();
    GDALAllRegister();

    argc = GDALGeneralCmdLineProcessor( argc, &argv, 0 );
    if( argc < 1 )
        exit( -argc );

/* -------------------------------------------------------------------- */
/*      Parse arguments.                                                */
/* -------------------------------------------------------------------- */
    for( i = 1; i < argc; i++ )
    {
        if ( EQUAL(argv[i], "-b") && i < argc - 1)
            iBand = atoi(argv[++i]);
        else if ( EQUAL(argv[i], "-f") && i < argc - 1)
            pszFormat = argv[++i];
        else if ( EQUAL(argv[i], "-l") && i < argc - 1)
            pszLayerName = CPLStrdup(argv[++i]);
        else if ( EQUAL(argv[i], "-t") && i < argc - 1)
        {
            i++;
            if (EQUAL(argv[i], "POLYGON"))
                eType = wkbPolygon;
            else if (EQUAL(argv[i], "POINT"))
                eType = wkbPoint;
            else if (EQUAL(argv[i], "POINT25D"))
                eType = wkbPoint25D;
            else
            {
                fprintf(stderr, "unhandled geometry type : %s\n", argv[i]);
            }
        }
        else if ( EQUAL(argv[i], "-step") && i < argc - 1)
            xStep = yStep = atoi(argv[++i]);
        else if ( argv[i][0] == '-')
            Usage();
        else if( pszSrcFilename == NULL )
            pszSrcFilename = argv[i];
        else if(  pszDstFilename == NULL )
            pszDstFilename = argv[i];
        else
            Usage();
    }

    if( pszSrcFilename == NULL || pszDstFilename == NULL)
        Usage();

/* -------------------------------------------------------------------- */
/*      Open GDAL source dataset                                        */
/* -------------------------------------------------------------------- */
    hDS = GDALOpen(pszSrcFilename, GA_ReadOnly);
    if (hDS == NULL)
    {
        fprintf(stderr, "Can't open %s\n", pszSrcFilename);
        exit(1);
    }

    hBand = GDALGetRasterBand(hDS, iBand);
    if (hBand == NULL)
    {
        fprintf(stderr, "Can't get band %d\n", iBand);
        exit(1);
    }

    if (GDALGetGeoTransform(hDS, adfGeotransform) != CE_None)
    {
        fprintf(stderr, "Can't get geotransform\n");
        exit(1);
    }

    nXSize = GDALGetRasterXSize(hDS);
    nYSize = GDALGetRasterYSize(hDS);

/* -------------------------------------------------------------------- */
/*     Create OGR destination dataset                                   */
/* -------------------------------------------------------------------- */
    /* Special case for CSV : we generate the appropriate VRT file in the same time */
    if (EQUAL(pszFormat, "CSV") && EQUAL(CPLGetExtension(pszDstFilename), "CSV"))
    {
        FILE* fOutCSVT;
        FILE* fOutVRT;
        char* pszDstFilenameCSVT;
        char* pszDstFilenameVRT;

        fOut = fopen(pszDstFilename, "wt");
        if (fOut == NULL)
        {
            fprintf(stderr, "Can't open %s for writing\n", pszDstFilename);
            exit(1);
        }
        fprintf(fOut, "x,y,z\n");

        pszDstFilenameCSVT = CPLMalloc(strlen(pszDstFilename) + 2);
        strcpy(pszDstFilenameCSVT, pszDstFilename);
        strcat(pszDstFilenameCSVT, "t");
        fOutCSVT = fopen(pszDstFilenameCSVT, "wt");
        if (fOutCSVT == NULL)
        {
            fprintf(stderr, "Can't open %s for writing\n", pszDstFilenameCSVT);
            exit(1);
        }
        CPLFree(pszDstFilenameCSVT);
        fprintf(fOutCSVT, "Real,Real,Real\n");
        fclose(fOutCSVT);
        fOutCSVT = NULL;

        pszDstFilenameVRT = CPLStrdup(pszDstFilename);
        strcpy(pszDstFilenameVRT + strlen(pszDstFilename) - 3, "vrt");
        fOutVRT = fopen(pszDstFilenameVRT, "wt");
        if (fOutVRT == NULL)
        {
            fprintf(stderr, "Can't open %s for writing\n", pszDstFilenameVRT);
            exit(1);
        }
        CPLFree(pszDstFilenameVRT);
        fprintf(fOutVRT, "<OGRVRTDataSource>\n");
        fprintf(fOutVRT, "  <OGRVRTLayer name=\"%s\">\n", CPLGetBasename(pszDstFilename));
        fprintf(fOutVRT, "    <SrcDataSource>%s</SrcDataSource> \n", pszDstFilename);
        fprintf(fOutVRT, "    <GeometryType>wkbPoint</GeometryType>\n");
        fprintf(fOutVRT, "    <GeometryField encoding=\"PointFromColumns\" x=\"x\" y=\"y\" z=\"z\"/>\n");
        fprintf(fOutVRT, "  </OGRVRTLayer>\n");
        fprintf(fOutVRT, "</OGRVRTDataSource>\n");
        fclose(fOutVRT);
        fOutVRT = NULL;
    }
    else
    {
        OGRSpatialReferenceH hSRS = NULL;
        const char* pszWkt;

        hOGRDriver = OGRGetDriverByName(pszFormat);
        if (hOGRDriver == NULL)
        {
            fprintf(stderr, "Can't find OGR driver %s\n", pszFormat);
            exit(1);
        }

        hOGRDS = OGR_Dr_CreateDataSource(hOGRDriver, pszDstFilename, NULL);
        if (hOGRDS == NULL)
        {
            fprintf(stderr, "Can't create OGR datasource %s\n", pszDstFilename);
            exit(1);
        }

        pszWkt = GDALGetProjectionRef(hDS);
        if (pszWkt && pszWkt[0])
        {
            hSRS = OSRNewSpatialReference(pszWkt);
        }

        if (pszLayerName == NULL)
            pszLayerName = CPLStrdup(CPLGetBasename(pszDstFilename));

        hOGRLayer = OGR_DS_CreateLayer( hOGRDS, pszLayerName,
                                        hSRS, eType, NULL);

        if (hSRS)
            OSRDestroySpatialReference(hSRS);

        if (hOGRLayer == NULL)
        {
            fprintf(stderr, "Can't create layer %s\n", pszLayerName);
            exit(1);
        }

        if (eType != wkbPoint25D)
        {
            OGRFieldDefnH hFieldDefn =  OGR_Fld_Create( "z", OFTReal );
            OGR_L_CreateField(hOGRLayer, hFieldDefn, 0);
            OGR_Fld_Destroy( hFieldDefn );
        }
    }


    padfBuffer = (double*)CPLMalloc(nXSize * sizeof(double));

#define GET_X(j, i) adfGeotransform[0] + (j) * adfGeotransform[1] + (i) * adfGeotransform[2]
#define GET_Y(j, i) adfGeotransform[3] + (j) * adfGeotransform[4] + (i) * adfGeotransform[5]
#define GET_XY(j, i) GET_X(j, i), GET_Y(j, i)

/* -------------------------------------------------------------------- */
/*     "Translate" the source dataset                                   */
/* -------------------------------------------------------------------- */
    for(i=0;i<nYSize;i+=yStep)
    {
        GDALRasterIO( hBand, GF_Read, 0, i, nXSize, 1,
                      padfBuffer, nXSize, 1, GDT_Float64, 0, 0);
        for(j=0;j<nXSize;j+=xStep)
        {
            if (fOut)
            {
                fprintf(fOut, "%f,%f,%f\n",
                        GET_XY(j + .5, i + .5), padfBuffer[j]);
            }
            else
            {
                OGRFeatureH hFeature = OGR_F_Create(OGR_L_GetLayerDefn(hOGRLayer));
                OGRGeometryH hGeometry = OGR_G_CreateGeometry(eType);
                if (eType == wkbPoint25D)
                {
                    OGR_G_SetPoint(hGeometry, 0, GET_XY(j + .5, i + .5),
                                   padfBuffer[j]);
                }
                else if (eType == wkbPoint)
                {
                    OGR_G_SetPoint_2D(hGeometry, 0, GET_XY(j + .5, i + .5));
                    OGR_F_SetFieldDouble(hFeature, 0, padfBuffer[j]);
                }
                else
                {
                    OGRGeometryH hLinearRing = OGR_G_CreateGeometry(wkbLinearRing);
                    OGR_G_SetPoint_2D(hLinearRing, 0, GET_XY(j + 0, i + 0));
                    OGR_G_SetPoint_2D(hLinearRing, 1, GET_XY(j + 1, i + 0));
                    OGR_G_SetPoint_2D(hLinearRing, 2, GET_XY(j + 1, i + 1));
                    OGR_G_SetPoint_2D(hLinearRing, 3, GET_XY(j + 0, i + 1));
                    OGR_G_SetPoint_2D(hLinearRing, 4, GET_XY(j + 0, i + 0));
                    OGR_G_AddGeometryDirectly(hGeometry, hLinearRing);
                    OGR_F_SetFieldDouble(hFeature, 0, padfBuffer[j]);
                }
                OGR_F_SetGeometryDirectly(hFeature, hGeometry);
                OGR_L_CreateFeature(hOGRLayer, hFeature);
                OGR_F_Destroy(hFeature);
            }
        }
    }

/* -------------------------------------------------------------------- */
/*     Cleanup                                                          */
/* -------------------------------------------------------------------- */
    if (fOut)
        fclose(fOut);
    else
        OGR_DS_Destroy(hOGRDS);
    GDALClose(hDS);

    CPLFree(padfBuffer);
    CPLFree(pszLayerName);

    GDALDumpOpenDatasets( stderr );
    GDALDestroyDriverManager();
    OGRCleanupAll();
    CSLDestroy( argv );

    return 0;
}
Ejemplo n.º 16
0
int export_areas_multi(struct Map_info *In, int field, int donocat,
                       OGRFeatureDefnH Ogr_featuredefn,OGRLayerH Ogr_layer,
                       struct field_info *Fi, dbDriver *driver, int ncol, int *colctype,
                       const char **colname, int doatt, int nocat,
                       int *n_noatt, int *n_nocat)
{
    int i, n_exported, area;
    int cat, ncats_field, line, type, findex, ipart;

    struct line_pnts *Points;
    struct line_cats *Cats;
    struct ilist *cat_list, *line_list, *lcats;

    OGRGeometryH Ogr_geometry, Ogr_geometry_part;
    OGRFeatureH Ogr_feature;
    OGRwkbGeometryType wkbtype, wkbtype_part;
    
    Points = Vect_new_line_struct();
    Cats = Vect_new_cats_struct();
    cat_list = Vect_new_list();
    line_list = Vect_new_list();
    lcats = Vect_new_list();

    n_exported = 0;

    /* check if category index is available for given field */
    findex = Vect_cidx_get_field_index(In, field);
    if (findex == -1)
        G_fatal_error(_("Unable to export multi-features. No category index for layer %d."),
                      field);
    
    /* determine type */
    wkbtype_part = wkbPolygon;
    wkbtype = get_multi_wkbtype(wkbtype_part);
    
    ncats_field = Vect_cidx_get_unique_cats_by_index(In, findex, cat_list);
    G_debug(1, "n_cats = %d for layer %d", ncats_field, field);

    if (donocat)
	G_message(_("Exporting features with category..."));

    for (i = 0; i < cat_list->n_values; i++) {
        G_percent(i, cat_list->n_values - 1, 5);

        cat = cat_list->value[i];
        /* find all centroids with given category */
        Vect_cidx_find_all(In, field, GV_CENTROID, cat, line_list);

        /* create multi-feature */
        Ogr_geometry = OGR_G_CreateGeometry(wkbtype);

        /* build simple features geometry, go through all parts */
        for (ipart = 0; ipart < line_list->n_values; ipart++) {
            line = line_list->value[ipart];
            G_debug(3, "cat=%d, line=%d -> part=%d", cat, line, ipart);

            /* get centroid's category */
            Vect_read_line(In, NULL, Cats, line);
            /* check for category consistency */
            Vect_field_cat_get(Cats, field, lcats);
	    if (!Vect_val_in_list(lcats, cat))
                G_fatal_error(_("Unable to create multi-feature. "
                                "Category %d not found in line %d, field %d"),
                              cat, line, field);
            
            /* find correspoding area */
            area = Vect_get_centroid_area(In, line);
            if (area == 0)
                continue;
                
            /* create polygon from area */
            Ogr_geometry_part = create_polygon(In, area, Points);

            /* add part */
            OGR_G_AddGeometryDirectly(Ogr_geometry, Ogr_geometry_part);
        }

        if (!OGR_G_IsEmpty(Ogr_geometry)) {
            /* write multi-feature */
            Ogr_feature = OGR_F_Create(Ogr_featuredefn);
            OGR_F_SetGeometry(Ogr_feature, Ogr_geometry);
            
            mk_att(cat, Fi, driver, ncol, colctype, colname, doatt, nocat,
                   Ogr_feature, n_noatt);
            OGR_L_CreateFeature(Ogr_layer, Ogr_feature);

            OGR_F_Destroy(Ogr_feature);

            n_exported++;
        }
        else {
            /* skip empty features */
            G_debug(3, "multi-feature is empty -> skipped");
        }
        
        OGR_G_DestroyGeometry(Ogr_geometry);
    }

    if (donocat)
	G_message(_("Exporting features without category..."));

    /* check lines without category, if -c flag is given write them as
     * one multi-feature */
    Ogr_geometry = OGR_G_CreateGeometry(wkbtype);
    
    Vect_rewind(In);
    Vect_set_constraint_type(In, GV_CENTROID);
    while(TRUE) {
        type = Vect_read_next_line(In, NULL, Cats);
        if (type < 0)
            break;

        /* get centroid's category */
        Vect_cat_get(Cats, field, &cat);
        if (cat > 0)
            continue; /* skip features with category */
        if (cat < 0 && !donocat) {
            (*n_nocat)++;
            continue; /* skip lines without category, do not export
                       * not labeled */
        }

        /* find correspoding area */
	line = Vect_get_next_line_id(In);
        area = Vect_get_centroid_area(In, line);
        if (area == 0)
            continue;
                
        /* create polygon from area */
        Ogr_geometry_part = create_polygon(In, area, Points);
        
        /* add part */
        OGR_G_AddGeometryDirectly(Ogr_geometry, Ogr_geometry_part);

        (*n_nocat)++;
    }

    if (!OGR_G_IsEmpty(Ogr_geometry)) {
        /* write multi-feature */
        Ogr_feature = OGR_F_Create(Ogr_featuredefn);
        OGR_F_SetGeometry(Ogr_feature, Ogr_geometry);
        
        mk_att(cat, Fi, driver, ncol, colctype, colname, doatt, nocat,
               Ogr_feature, n_noatt);
        OGR_L_CreateFeature(Ogr_layer, Ogr_feature);

        OGR_F_Destroy(Ogr_feature);
        
        n_exported++;
    }
    else {
        /* skip empty features */
        G_debug(3, "multi-feature is empty -> skipped");
    }
    
    OGR_G_DestroyGeometry(Ogr_geometry);
    
    Vect_destroy_line_struct(Points);
    Vect_destroy_cats_struct(Cats);
    Vect_destroy_list(cat_list);
    Vect_destroy_list(line_list);
    Vect_destroy_list(lcats);
    
    return n_exported;
}
Ejemplo n.º 17
0
    void object::test<3>()
    {
        OGRErr err = OGRERR_NONE;

        OGRDataSourceH ds = NULL;
        ds = OGR_Dr_CreateDataSource(drv_, data_tmp_.c_str(), NULL);
        ensure("Can't open or create data source", NULL != ds);

        // Create memory Layer
        OGRLayerH lyr = NULL;
        lyr = OGR_DS_CreateLayer(ds, "tpoly", NULL, wkbPolygon, NULL);
        ensure("Can't create layer", NULL != lyr);

        // Create schema
        OGRFieldDefnH fld = NULL;

        fld = OGR_Fld_Create("AREA", OFTReal);
        err = OGR_L_CreateField(lyr, fld, true);
        OGR_Fld_Destroy(fld);
        ensure_equals("Can't create field", OGRERR_NONE, err);

        fld = OGR_Fld_Create("EAS_ID", OFTInteger);
        err = OGR_L_CreateField(lyr, fld, true);
        OGR_Fld_Destroy(fld);
        ensure_equals("Can't create field", OGRERR_NONE, err);

        fld = OGR_Fld_Create("PRFEDEA", OFTString);
        err = OGR_L_CreateField(lyr, fld, true);
        OGR_Fld_Destroy(fld);
        ensure_equals("Can't create field", OGRERR_NONE, err);

        // Check schema
        OGRFeatureDefnH featDefn = OGR_L_GetLayerDefn(lyr);
        ensure("Layer schema is NULL", NULL != featDefn);
        ensure_equals("Fields creation failed", 3, OGR_FD_GetFieldCount(featDefn));

        // Copy ogr/poly.shp to temporary layer
        OGRFeatureH featDst = OGR_F_Create(featDefn);
        ensure("Can't create empty feature", NULL != featDst);

        std::string source(data_);
        source += SEP;
        source += "poly.shp";
        OGRDataSourceH dsSrc = OGR_Dr_Open(drv_, source.c_str(), false);
        ensure("Can't open source layer", NULL != dsSrc);

        OGRLayerH lyrSrc = OGR_DS_GetLayer(dsSrc, 0);
        ensure("Can't get source layer", NULL != lyrSrc);

        OGRFeatureH featSrc = NULL;
        while (NULL != (featSrc = OGR_L_GetNextFeature(lyrSrc)))
        {
            err = OGR_F_SetFrom(featDst, featSrc, true);
            ensure_equals("Can't set festure from source", OGRERR_NONE, err);

            err = OGR_L_CreateFeature(lyr, featDst);
            ensure_equals("Can't write feature to layer", OGRERR_NONE, err);

            OGR_F_Destroy(featSrc);
        }

        // Release and close resources
        OGR_F_Destroy(featDst);
        OGR_DS_Destroy(dsSrc);
        OGR_DS_Destroy(ds);
    }
Ejemplo n.º 18
0
int export_areas_single(struct Map_info *In, int field, int donocat,
                        OGRFeatureDefnH Ogr_featuredefn,OGRLayerH Ogr_layer,
                        struct field_info *Fi, dbDriver *driver, int ncol, int *colctype,
                        const char **colname, int doatt, int nocat,
                        int *n_noatt, int *n_nocat)
{
    int i, j;
    int centroid, cat, area, n_areas;
    int n_exported;
    
    struct line_pnts *Points;
    struct line_cats *Cats;

    OGRGeometryH Ogr_geometry;
    OGRFeatureH Ogr_feature;

    Points = Vect_new_line_struct();
    Cats = Vect_new_cats_struct();

    n_exported = 0;

    n_areas = Vect_get_num_areas(In);
    for (i = 1; i <= n_areas; i++) {
        G_percent(i, n_areas, 5);
        
        /* get centroid's category */
        centroid = Vect_get_area_centroid(In, i);
        cat = -1;
        if (centroid > 0) {
            Vect_read_line(In, NULL, Cats, centroid);
            Vect_cat_get(Cats, field, &cat);
        }
        G_debug(3, "area = %d centroid = %d ncats = %d", i, centroid,
                Cats->n_cats);
        if (cat < 0 && !donocat) {
            (*n_nocat)++;
            continue; /* skip areas without category, do not export
                       * not labeled */
        }
        
        /* find correspoding area */
        area = Vect_get_centroid_area(In, centroid);
        if (area == 0)
            continue;

        /* create polygon from area */
        Ogr_geometry = create_polygon(In, area, Points);

        /* add feature */
        Ogr_feature = OGR_F_Create(Ogr_featuredefn);
        OGR_F_SetGeometry(Ogr_feature, Ogr_geometry);
        
        /* output one feature for each category */
        for (j = -1; j < Cats->n_cats; j++) {
            if (j == -1) {
                if (cat >= 0)
                    continue;	/* cat(s) exists */
		(*n_nocat)++;
            }
            else {
                if (Cats->field[j] == field)
                    cat = Cats->cat[j];
                else
                    continue;
            }
            
            mk_att(cat, Fi, driver, ncol, colctype, colname, doatt, nocat,
                   Ogr_feature, n_noatt);
            OGR_L_CreateFeature(Ogr_layer, Ogr_feature);
            
            n_exported++;
        }
        OGR_G_DestroyGeometry(Ogr_geometry);
        OGR_F_Destroy(Ogr_feature);
    }

    Vect_destroy_line_struct(Points);
    Vect_destroy_cats_struct(Cats);

    return n_exported;
}
Ejemplo n.º 19
0
int OGRCCreate(const char *pszFname)
{
    OGRSFDriverH    driver;
    int             i, numDrivers;
    OGRDataSourceH  datasource;
    OGRLayerH       layer;
    OGRFeatureDefnH layerDefn;
    OGRFieldDefnH   fieldDefn;
    OGRFeatureH     feature;
    OGRGeometryH    geometry, ring;

    /* Register all OGR drivers */
    OGRRegisterAll();

    /* Fetch MITAB driver - we want to create a TAB file */
    numDrivers = OGRGetDriverCount();
    for(i=0; i<numDrivers; i++)
    {
        driver = OGRGetDriver(i);
        if (EQUAL("MapInfo File", OGR_Dr_GetName(driver)))
            break;  /* Found it! */
        driver = NULL;
    }

    if (!driver)
    {
        printf("Driver not found!\n");
        return -1;
    }

    /* Create new file using this driver */
    datasource = OGR_Dr_CreateDataSource(driver, pszFname, NULL);

    if (datasource == NULL)
    {
        printf("Unable to create %s\n", pszFname);
        return -1;
    }

    /* MapInfo data sources are created with one empty layer.
       Fetch the layer handle */
    layer = OGR_DS_GetLayer(datasource, 0);

    if (layer == NULL)
    {
        printf("Unable to create new layer in %s\n", pszFname);
        return -1;
    }

    /* Add a few fields to the layer defn */
    fieldDefn = OGR_Fld_Create( "id", OFTInteger );
    OGR_L_CreateField(layer, fieldDefn, 0);

    fieldDefn = OGR_Fld_Create( "area", OFTReal );
    OGR_L_CreateField(layer, fieldDefn, 0);

    fieldDefn = OGR_Fld_Create( "name", OFTString );
    OGR_L_CreateField(layer, fieldDefn, 0);

    /* We'll need the layerDefn handle to create new features in this layer */
    layerDefn = OGR_L_GetLayerDefn( layer );

    /* Create a new point */
    feature = OGR_F_Create( layerDefn );
    OGR_F_SetFieldInteger( feature, 0, 1);
    OGR_F_SetFieldDouble( feature, 1, 123.45);
    OGR_F_SetFieldString( feature, 2, "Feature #1");

    geometry = OGR_G_CreateGeometry( wkbPoint );
    OGR_G_SetPoint(geometry, 0, 123.45, 456.78, 0);

    OGR_F_SetGeometryDirectly(feature, geometry);

    OGR_L_CreateFeature( layer, feature );

    /* Create a new line */
    feature = OGR_F_Create( layerDefn );
    OGR_F_SetFieldInteger( feature, 0, 2);
    OGR_F_SetFieldDouble( feature, 1, 42.45);
    OGR_F_SetFieldString( feature, 2, "Feature #2");

    geometry = OGR_G_CreateGeometry( wkbLineString );
    OGR_G_AddPoint(geometry, 123.45, 456.78, 0);
    OGR_G_AddPoint(geometry, 12.34,  45.67, 0);

    OGR_F_SetGeometryDirectly(feature, geometry);
 
    OGR_L_CreateFeature( layer, feature );

    /* Create a new polygon (square) */
    feature = OGR_F_Create( layerDefn );
    OGR_F_SetFieldInteger( feature, 0, 3);
    OGR_F_SetFieldDouble( feature, 1, 49.71);
    OGR_F_SetFieldString( feature, 2, "Feature #3");

    geometry = OGR_G_CreateGeometry( wkbPolygon );
    ring = OGR_G_CreateGeometry( wkbLinearRing );
    OGR_G_AddPoint(ring, 123.45, 456.78, 0);
    OGR_G_AddPoint(ring, 12.34,  456.78, 0);
    OGR_G_AddPoint(ring, 12.34,  45.67, 0);
    OGR_G_AddPoint(ring, 123.45, 45.67, 0);
    OGR_G_AddPoint(ring, 123.45, 456.78, 0);
    OGR_G_AddGeometryDirectly(geometry, ring);

    OGR_F_SetGeometryDirectly(feature, geometry);
 
    OGR_L_CreateFeature( layer, feature );

    /* Close data source */
    OGR_DS_Destroy( datasource );

    return 0;
}
Ejemplo n.º 20
0
/*!
  \brief Writes feature on level 1 (OGR interface)

  \param Map pointer to Map_info structure
  \param type feature type
  \param points pointer to line_pnts structure (feature geometry)
  \param cats pointer to line_cats structure (feature categories)

  \return feature offset into file
  \return -1 on error
*/
off_t V1_write_line_ogr(struct Map_info *Map, int type,
                        const struct line_pnts *points,
                        const struct line_cats *cats)
{
    int i, cat, ret;

    struct field_info *Fi;
    struct Format_info_ogr *fInfo;

    OGRGeometryH       Ogr_geometry;
    OGRFeatureH        Ogr_feature;
    OGRFeatureDefnH    Ogr_featuredefn;
    OGRwkbGeometryType Ogr_geom_type;

    if (!Map->fInfo.ogr.layer) {
        if (V2_open_new_ogr(Map, type) < 0)
            return -1;
    }

    cat = -1; /* no attributes to be written */
    if (cats->n_cats > 0) {
        /* check for attributes */
        Fi = Vect_get_dblink(Map, 0);
        if (Fi) {
            if (!Vect_cat_get(cats, Fi->number, &cat))
                G_warning(_("No category defined for layer %d"), Fi->number);
            if (cats->n_cats > 1) {
                G_warning(_("Feature has more categories, using "
                            "category %d (from layer %d)"),
                          cat, cats->field[0]);
            }
        }
    }

    fInfo = &(Map->fInfo.ogr);
    Ogr_featuredefn = OGR_L_GetLayerDefn(fInfo->layer);
    Ogr_geom_type = OGR_FD_GetGeomType(Ogr_featuredefn);

    /* determine matching OGR feature geometry type */
    /* NOTE: centroids are not supported in OGR,
     *       pseudotopo holds virtual centroids */
    /* NOTE: boundaries are not supported in OGR,
     *       pseudotopo treats polygons as boundaries */

    if (type & (GV_POINT | GV_KERNEL)) {
        if (Ogr_geom_type != wkbPoint &&
                Ogr_geom_type != wkbPoint25D) {
            G_warning(_("Feature is not a point. Skipping."));
            return -1;
        }
        Ogr_geometry = OGR_G_CreateGeometry(wkbPoint);
    }
    else if (type & GV_LINE) {
        if (Ogr_geom_type != wkbLineString &&
                Ogr_geom_type != wkbLineString25D) {
            G_warning(_("Feature is not a line. Skipping."));
            return -1;
        }
        Ogr_geometry = OGR_G_CreateGeometry(wkbLineString);
    }
    else if (type & GV_BOUNDARY) {
        if (Ogr_geom_type != wkbPolygon) {
            G_warning(_("Feature is not a polygon. Skipping."));
            return -1;
        }
        Ogr_geometry = OGR_G_CreateGeometry(wkbPolygon);
    }
    else if (type & GV_FACE) {
        if (Ogr_geom_type != wkbPolygon25D) {
            G_warning(_("Feature is not a face. Skipping."));
            return -1;
        }
        Ogr_geometry = OGR_G_CreateGeometry(wkbPolygon25D);
    }
    else {
        G_warning(_("Unsupported feature type (%d)"), type);
        return -1;
    }

    G_debug(3, "V1_write_line_ogr(): type = %d", type);

    if (Ogr_geom_type == wkbPolygon || Ogr_geom_type == wkbPolygon25D) {
        /* create exterior ring */
        OGRGeometryH Ogr_ring;
        int npoints;

        npoints = points->n_points - 1;
        Ogr_ring = OGR_G_CreateGeometry(wkbLinearRing);
        if (points->x[0] != points->x[npoints] ||
                points->y[0] != points->y[npoints] ||
                points->z[0] != points->z[npoints]) {
            G_warning(_("Boundary is not closed. Skipping."));
            return -1;
        }

        /* add points */
        for (i = 0; i < points->n_points; i++) {
            OGR_G_AddPoint(Ogr_ring, points->x[i], points->y[i],
                           points->z[i]);
        }
        OGR_G_AddGeometry(Ogr_geometry, Ogr_ring);
    }
    else {
        for (i = 0; i < points->n_points; i++) {
            OGR_G_AddPoint(Ogr_geometry, points->x[i], points->y[i],
                           points->z[i]);
        }
    }

    G_debug(4, "   n_points = %d", points->n_points);

    /* create feature & set geometry */
    Ogr_feature = OGR_F_Create(Ogr_featuredefn);
    OGR_F_SetGeometry(Ogr_feature, Ogr_geometry);

    /* write attributes */
    if (cat > -1 && fInfo->dbdriver) {
        write_attributes(fInfo->dbdriver,
                         cat, Fi, fInfo->layer, Ogr_feature);
        G_free(Fi);
    }
    /* write feature into layer */
    ret = OGR_L_CreateFeature(fInfo->layer, Ogr_feature);

    /* update offset array */
    if (fInfo->offset_num >= fInfo->offset_alloc) {
        fInfo->offset_alloc += 1000;
        fInfo->offset = (int *) G_realloc(fInfo->offset,
                                          fInfo->offset_alloc *
                                          sizeof(int));
    }
    /* how to deal with OGRNullFID ? */
    fInfo->offset[fInfo->offset_num] = (int)OGR_F_GetFID(Ogr_feature);

    /* destroy */
    OGR_G_DestroyGeometry(Ogr_geometry);
    OGR_F_Destroy(Ogr_feature);

    if (ret != OGRERR_NONE)
        return -1;

    return fInfo->offset_num++;
}
Ejemplo n.º 21
0
 void Shapefile::add_feature (const Feature &feature) {
     if( OGR_L_CreateFeature( layer, feature.handle() ) != OGRERR_NONE ) {
         throw runtime_error(name + " feature creation failed.");
     }
 }
Ejemplo n.º 22
0
/*!
  \brief Write OGR feature

   \param Map pointer to Map_info structure
   \param type feature type (GV_POINT, GV_LINE, ...)
   \param bpoints feature geometry
   \param cats feature categories
   \param ipoints isle geometry for polygons on NULL
   \param nisles number of isles
   
   \return feature offset into file
   \return -1 on error
*/
off_t write_feature(struct Map_info *Map, int type,
                    const struct line_pnts **p_points, int nparts,
                    const struct line_cats *cats)
{
    int i, cat, ret;

    struct field_info *Fi;
    const struct line_pnts *points;
    struct Format_info_ogr *ogr_info;
    struct Format_info_offset *offset_info;
    
    off_t offset;
    
    OGRGeometryH       Ogr_geometry;
    OGRFeatureH        Ogr_feature;
    OGRFeatureDefnH    Ogr_featuredefn;
    OGRwkbGeometryType Ogr_geom_type;

    ogr_info = &(Map->fInfo.ogr);
    offset_info = &(ogr_info->offset);
    
    if (nparts < 1)
        return -1;
    
    points = p_points[0]; /* feature geometry */
    
    if (!ogr_info->layer) {
	/* create OGR layer if doesn't exist */
	if (create_ogr_layer(Map, type) < 0)
	    return -1;
    }

    if (!points)
        return 0;

    cat = -1; /* no attributes to be written */
    if (cats->n_cats > 0 && Vect_get_num_dblinks(Map) > 0) {
	/* check for attributes */
	Fi = Vect_get_dblink(Map, 0);
	if (Fi) {
	    if (!Vect_cat_get(cats, Fi->number, &cat))
		G_warning(_("No category defined for layer %d"), Fi->number);
	    if (cats->n_cats > 1) {
		G_warning(_("Feature has more categories, using "
			    "category %d (from layer %d)"),
			  cat, cats->field[0]);
	    }
	}
    }
    
    Ogr_featuredefn = OGR_L_GetLayerDefn(ogr_info->layer);
    Ogr_geom_type = OGR_FD_GetGeomType(Ogr_featuredefn);
    
    /* determine matching OGR feature geometry type */
    if (type & (GV_POINT | GV_KERNEL)) {
	if (Ogr_geom_type != wkbPoint &&
	    Ogr_geom_type != wkbPoint25D) {
	    G_warning(_("Feature is not a point. Skipping."));
	    return -1;
	}
	Ogr_geometry = OGR_G_CreateGeometry(wkbPoint);
    }
    else if (type & GV_LINE) {
	if (Ogr_geom_type != wkbLineString &&
	    Ogr_geom_type != wkbLineString25D) {
	    G_warning(_("Feature is not a line. Skipping."));
	    return -1;
	}
	Ogr_geometry = OGR_G_CreateGeometry(wkbLineString);
    }
    else if (type & GV_BOUNDARY) {
	if (Ogr_geom_type != wkbPolygon) {
	    G_warning(_("Feature is not a polygon. Skipping."));
	    return -1;
	}
	Ogr_geometry = OGR_G_CreateGeometry(wkbPolygon);
    }
    else if (type & GV_FACE) {
	if (Ogr_geom_type != wkbPolygon25D) {
	    G_warning(_("Feature is not a face. Skipping."));
	    return -1;
	}
	Ogr_geometry = OGR_G_CreateGeometry(wkbPolygon25D);
    }
    else {
	G_warning(_("Unsupported feature type (%d)"), type);
	return -1;
    }

    G_debug(3, "V1_write_line_ogr(): type = %d", type);

    if (Ogr_geom_type == wkbPolygon || Ogr_geom_type == wkbPolygon25D) {
	int iring, npoints;
	
        /* add rings (first is exterior ring) */
        for (iring = 0; iring < nparts; iring++) {
            OGRGeometryH Ogr_ring;
            
            points = p_points[iring];
            npoints = points->n_points - 1;
            Ogr_ring = OGR_G_CreateGeometry(wkbLinearRing);
            if (points->x[0] != points->x[npoints] ||
                points->y[0] != points->y[npoints] ||
                points->z[0] != points->z[npoints]) {
                G_warning(_("Boundary is not closed. Feature skipped."));
                return -1;
            }
	
            /* add points */
            for (i = 0; i < npoints; i++) {
                OGR_G_AddPoint(Ogr_ring, points->x[i], points->y[i],
                               points->z[i]);
            }
            G_debug(4, "   ring(%d): n_points = %d", iring, npoints);
            OGR_G_AddGeometry(Ogr_geometry, Ogr_ring);
        }
    }
    else {
	for (i = 0; i < points->n_points; i++) {
	    OGR_G_AddPoint(Ogr_geometry, points->x[i], points->y[i],
			   points->z[i]);
	}
        G_debug(4, "   n_points = %d", points->n_points);
    }
    
    /* create feature & set geometry */
    Ogr_feature = OGR_F_Create(Ogr_featuredefn);
    OGR_F_SetGeometry(Ogr_feature, Ogr_geometry);

    /* write attributes */
    if (cat > -1 && ogr_info->dbdriver) {
	if (0 > write_attributes(ogr_info->dbdriver,
                                 cat, Fi, ogr_info->layer, Ogr_feature))
            G_warning(_("Unable to writes feature attributes"));
	G_free(Fi);
    }
    /* write feature into layer */
    ret = OGR_L_CreateFeature(ogr_info->layer, Ogr_feature);

    /* update offset array */
    if (offset_info->array_num >= offset_info->array_alloc) {
	offset_info->array_alloc += 1000;
	offset_info->array = (int *) G_realloc(offset_info->array,
						offset_info->array_alloc *
						sizeof(int));
    }

    offset = offset_info->array_num;
    
    offset_info->array[offset_info->array_num++] = (int) OGR_F_GetFID(Ogr_feature);
    if (Ogr_geom_type == wkbPolygon || Ogr_geom_type == wkbPolygon25D) {
	/* register exterior ring in offset array */
	offset_info->array[offset_info->array_num++] = 0; 
    }
      
    /* destroy */
    OGR_G_DestroyGeometry(Ogr_geometry);
    OGR_F_Destroy(Ogr_feature);
    
    if (ret != OGRERR_NONE)
	return -1;
    
    G_debug(3, "write_feature(): -> offset = %lu offset_num = %d cat = %d",
	    (unsigned long) offset, offset_info->array_num, cat);

    return offset;
}