static int OGR2SQLITEDealWithSpatialColumn(OGRLayer* poLayer, int iGeomCol, const LayerDesc& oLayerDesc, const CPLString& osTableName, OGRSQLiteDataSource* poSQLiteDS, sqlite3* hDB, int bSpatialiteDB, const std::set<LayerDesc>& WHEN_SPATIALITE(oSetLayers), const std::set<CPLString>& WHEN_SPATIALITE(oSetSpatialIndex) ) { OGRGeomFieldDefn* poGeomField = poLayer->GetLayerDefn()->GetGeomFieldDefn(iGeomCol); CPLString osGeomColRaw; if( iGeomCol == 0 ) osGeomColRaw = OGR2SQLITE_GetNameForGeometryColumn(poLayer); else osGeomColRaw = poGeomField->GetNameRef(); const char* pszGeomColRaw = osGeomColRaw.c_str(); CPLString osGeomColEscaped(OGRSQLiteEscape(pszGeomColRaw)); const char* pszGeomColEscaped = osGeomColEscaped.c_str(); CPLString osLayerNameEscaped(OGRSQLiteEscape(osTableName)); const char* pszLayerNameEscaped = osLayerNameEscaped.c_str(); CPLString osIdxNameRaw(CPLSPrintf("idx_%s_%s", oLayerDesc.osLayerName.c_str(), pszGeomColRaw)); CPLString osIdxNameEscaped(OGRSQLiteEscapeName(osIdxNameRaw)); /* Make sure that the SRS is injected in spatial_ref_sys */ OGRSpatialReference* poSRS = poGeomField->GetSpatialRef(); if( iGeomCol == 0 && poSRS == NULL ) poSRS = poLayer->GetSpatialRef(); int nSRSId = poSQLiteDS->GetUndefinedSRID(); if( poSRS != NULL ) nSRSId = poSQLiteDS->FetchSRSId(poSRS); CPLString osSQL; #ifdef HAVE_SPATIALITE bool bCreateSpatialIndex = false; #endif if( !bSpatialiteDB ) { osSQL.Printf("INSERT INTO geometry_columns (f_table_name, " "f_geometry_column, geometry_format, geometry_type, " "coord_dimension, srid) " "VALUES ('%s','%s','SpatiaLite',%d,%d,%d)", pszLayerNameEscaped, pszGeomColEscaped, (int) wkbFlatten(poLayer->GetGeomType()), wkbHasZ( poLayer->GetGeomType() ) ? 3 : 2, nSRSId); } #ifdef HAVE_SPATIALITE else { /* We detect the need for creating a spatial index by 2 means : */ /* 1) if there's an explicit reference to a 'idx_layername_geometrycolumn' */ /* table in the SQL --> old/traditional way of requesting spatial indices */ /* with spatialite. */ std::set<LayerDesc>::const_iterator oIter2 = oSetLayers.begin(); for(; oIter2 != oSetLayers.end(); ++oIter2) { const LayerDesc& oLayerDescIter = *oIter2; if( EQUAL(oLayerDescIter.osLayerName, osIdxNameRaw) ) { bCreateSpatialIndex = true; break; } } /* 2) or if there's a SELECT FROM SpatialIndex WHERE f_table_name = 'layername' */ if( !bCreateSpatialIndex ) { std::set<CPLString>::const_iterator oIter3 = oSetSpatialIndex.begin(); for(; oIter3 != oSetSpatialIndex.end(); ++oIter3) { const CPLString& osNameIter = *oIter3; if( EQUAL(osNameIter, oLayerDesc.osLayerName) ) { bCreateSpatialIndex = true; break; } } } if( poSQLiteDS->HasSpatialite4Layout() ) { int nGeomType = poLayer->GetGeomType(); int nCoordDimension = 2; if( wkbHasZ((OGRwkbGeometryType)nGeomType) ) { nGeomType += 1000; nCoordDimension = 3; } osSQL.Printf("INSERT INTO geometry_columns (f_table_name, " "f_geometry_column, geometry_type, coord_dimension, " "srid, spatial_index_enabled) " "VALUES (Lower('%s'),Lower('%s'),%d ,%d ,%d, %d)", pszLayerNameEscaped, pszGeomColEscaped, nGeomType, nCoordDimension, nSRSId, static_cast<int>(bCreateSpatialIndex) ); } else { const char *pszGeometryType = OGRToOGCGeomType(poLayer->GetGeomType()); if (pszGeometryType[0] == '\0') pszGeometryType = "GEOMETRY"; osSQL.Printf("INSERT INTO geometry_columns (f_table_name, " "f_geometry_column, type, coord_dimension, " "srid, spatial_index_enabled) " "VALUES ('%s','%s','%s','%s',%d, %d)", pszLayerNameEscaped, pszGeomColEscaped, pszGeometryType, wkbHasZ( poLayer->GetGeomType() ) ? "XYZ" : "XY", nSRSId, static_cast<int>(bCreateSpatialIndex) ); } } #endif // HAVE_SPATIALITE char* pszErrMsg = NULL; int rc = sqlite3_exec( hDB, osSQL.c_str(), NULL, NULL, &pszErrMsg ); if( pszErrMsg != NULL ) { CPLDebug("SQLITE", "%s -> %s", osSQL.c_str(), pszErrMsg); sqlite3_free(pszErrMsg); } #ifdef HAVE_SPATIALITE /* -------------------------------------------------------------------- */ /* Should we create a spatial index ?. */ /* -------------------------------------------------------------------- */ if( !bSpatialiteDB || !bCreateSpatialIndex ) return rc == SQLITE_OK; CPLDebug("SQLITE", "Create spatial index %s", osIdxNameRaw.c_str()); /* ENABLE_VIRTUAL_OGR_SPATIAL_INDEX is not defined */ #ifdef ENABLE_VIRTUAL_OGR_SPATIAL_INDEX osSQL.Printf("CREATE VIRTUAL TABLE \"%s\" USING " "VirtualOGRSpatialIndex(%d, '%s', pkid, xmin, xmax, ymin, ymax)", osIdxNameEscaped.c_str(), nExtraDS, OGRSQLiteEscape(oLayerDesc.osLayerName).c_str()); rc = sqlite3_exec( hDB, osSQL.c_str(), NULL, NULL, NULL ); if( rc != SQLITE_OK ) { CPLDebug( "SQLITE", "Error occurred during spatial index creation : %s", sqlite3_errmsg(hDB)); } #else // ENABLE_VIRTUAL_OGR_SPATIAL_INDEX rc = sqlite3_exec( hDB, "BEGIN", NULL, NULL, NULL ); osSQL.Printf("CREATE VIRTUAL TABLE \"%s\" " "USING rtree(pkid, xmin, xmax, ymin, ymax)", osIdxNameEscaped.c_str()); if( rc == SQLITE_OK ) rc = sqlite3_exec( hDB, osSQL.c_str(), NULL, NULL, NULL ); sqlite3_stmt *hStmt = NULL; if( rc == SQLITE_OK ) { const char* pszInsertInto = CPLSPrintf( "INSERT INTO \"%s\" (pkid, xmin, xmax, ymin, ymax) " "VALUES (?,?,?,?,?)", osIdxNameEscaped.c_str()); rc = sqlite3_prepare(hDB, pszInsertInto, -1, &hStmt, NULL); } OGRFeature* poFeature; OGREnvelope sEnvelope; OGR2SQLITE_IgnoreAllFieldsExceptGeometry(poLayer); poLayer->ResetReading(); while( rc == SQLITE_OK && (poFeature = poLayer->GetNextFeature()) != NULL ) { OGRGeometry* poGeom = poFeature->GetGeometryRef(); if( poGeom != NULL && !poGeom->IsEmpty() ) { poGeom->getEnvelope(&sEnvelope); sqlite3_bind_int64(hStmt, 1, (sqlite3_int64) poFeature->GetFID() ); sqlite3_bind_double(hStmt, 2, sEnvelope.MinX); sqlite3_bind_double(hStmt, 3, sEnvelope.MaxX); sqlite3_bind_double(hStmt, 4, sEnvelope.MinY); sqlite3_bind_double(hStmt, 5, sEnvelope.MaxY); rc = sqlite3_step(hStmt); if( rc == SQLITE_OK || rc == SQLITE_DONE ) rc = sqlite3_reset(hStmt); } delete poFeature; } poLayer->SetIgnoredFields(NULL); sqlite3_finalize(hStmt); if( rc == SQLITE_OK ) rc = sqlite3_exec( hDB, "COMMIT", NULL, NULL, NULL ); else { CPLDebug( "SQLITE", "Error occurred during spatial index creation : %s", sqlite3_errmsg(hDB)); rc = sqlite3_exec( hDB, "ROLLBACK", NULL, NULL, NULL ); } #endif // ENABLE_VIRTUAL_OGR_SPATIAL_INDEX #endif // HAVE_SPATIALITE return rc == SQLITE_OK; }
OGRLayer * OGRSQLiteExecuteSQL( OGRDataSource* poDS, const char *pszStatement, OGRGeometry *poSpatialFilter, const char *pszDialect ) { char* pszTmpDBName = (char*) CPLMalloc(256); sprintf(pszTmpDBName, "/vsimem/ogr2sqlite/temp_%p.db", pszTmpDBName); OGRSQLiteDataSource* poSQLiteDS = NULL; int nRet; int bSpatialiteDB = FALSE; CPLString osOldVal; const char* pszOldVal = CPLGetConfigOption("OGR_SQLITE_STATIC_VIRTUAL_OGR", NULL); if( pszOldVal != NULL ) { osOldVal = pszOldVal; pszOldVal = osOldVal.c_str(); } /* -------------------------------------------------------------------- */ /* Create in-memory sqlite/spatialite DB */ /* -------------------------------------------------------------------- */ #ifdef HAVE_SPATIALITE /* -------------------------------------------------------------------- */ /* Creating an empty spatialite DB (with spatial_ref_sys populated */ /* has a non-neglectable cost. So at the first attempt, let's make */ /* one and cache it for later use. */ /* -------------------------------------------------------------------- */ #if 1 static vsi_l_offset nEmptyDBSize = 0; static GByte* pabyEmptyDB = NULL; { static void* hMutex = NULL; CPLMutexHolder oMutexHolder(&hMutex); static int bTried = FALSE; if( !bTried && CSLTestBoolean(CPLGetConfigOption("OGR_SQLITE_DIALECT_USE_SPATIALITE", "YES")) ) { bTried = TRUE; char* pszCachedFilename = (char*) CPLMalloc(256); sprintf(pszCachedFilename, "/vsimem/ogr2sqlite/reference_%p.db",pszCachedFilename); char** papszOptions = CSLAddString(NULL, "SPATIALITE=YES"); OGRSQLiteDataSource* poCachedDS = new OGRSQLiteDataSource(); nRet = poCachedDS->Create( pszCachedFilename, papszOptions ); CSLDestroy(papszOptions); papszOptions = NULL; delete poCachedDS; if( nRet ) /* Note: the reference file keeps the ownership of the data, so that */ /* it gets released with VSICleanupFileManager() */ pabyEmptyDB = VSIGetMemFileBuffer( pszCachedFilename, &nEmptyDBSize, FALSE ); CPLFree( pszCachedFilename ); } } /* The following configuration option is usefull mostly for debugging/testing */ if( pabyEmptyDB != NULL && CSLTestBoolean(CPLGetConfigOption("OGR_SQLITE_DIALECT_USE_SPATIALITE", "YES")) ) { GByte* pabyEmptyDBClone = (GByte*)VSIMalloc(nEmptyDBSize); if( pabyEmptyDBClone == NULL ) { CPLFree(pszTmpDBName); return NULL; } memcpy(pabyEmptyDBClone, pabyEmptyDB, nEmptyDBSize); VSIFCloseL(VSIFileFromMemBuffer( pszTmpDBName, pabyEmptyDBClone, nEmptyDBSize, TRUE )); poSQLiteDS = new OGRSQLiteDataSource(); CPLSetThreadLocalConfigOption("OGR_SQLITE_STATIC_VIRTUAL_OGR", "NO"); nRet = poSQLiteDS->Open( pszTmpDBName, TRUE ); CPLSetThreadLocalConfigOption("OGR_SQLITE_STATIC_VIRTUAL_OGR", pszOldVal); if( !nRet ) { /* should not happen really ! */ delete poSQLiteDS; VSIUnlink(pszTmpDBName); CPLFree(pszTmpDBName); return NULL; } bSpatialiteDB = TRUE; } #else /* No caching version */ poSQLiteDS = new OGRSQLiteDataSource(); char** papszOptions = CSLAddString(NULL, "SPATIALITE=YES"); CPLSetThreadLocalConfigOption("OGR_SQLITE_STATIC_VIRTUAL_OGR", "NO"); nRet = poSQLiteDS->Create( pszTmpDBName, papszOptions ); CPLSetThreadLocalConfigOption("OGR_SQLITE_STATIC_VIRTUAL_OGR", pszOldVal); CSLDestroy(papszOptions); papszOptions = NULL; if( nRet ) { bSpatialiteDB = TRUE; } #endif else { delete poSQLiteDS; poSQLiteDS = NULL; #else // HAVE_SPATIALITE if( TRUE ) { #endif // HAVE_SPATIALITE poSQLiteDS = new OGRSQLiteDataSource(); CPLSetThreadLocalConfigOption("OGR_SQLITE_STATIC_VIRTUAL_OGR", "NO"); nRet = poSQLiteDS->Create( pszTmpDBName, NULL ); CPLSetThreadLocalConfigOption("OGR_SQLITE_STATIC_VIRTUAL_OGR", pszOldVal); if( !nRet ) { delete poSQLiteDS; VSIUnlink(pszTmpDBName); CPLFree(pszTmpDBName); return NULL; } } /* -------------------------------------------------------------------- */ /* Attach the Virtual Table OGR2SQLITE module to it. */ /* -------------------------------------------------------------------- */ OGR2SQLITEModule* poModule = OGR2SQLITE_Setup(poDS, poSQLiteDS); sqlite3* hDB = poSQLiteDS->GetDB(); /* -------------------------------------------------------------------- */ /* Analysze the statement to determine which tables will be used. */ /* -------------------------------------------------------------------- */ std::set<LayerDesc> oSetLayers; std::set<CPLString> oSetSpatialIndex; CPLString osModifiedSQL; OGR2SQLITEGetPotentialLayerNames(pszStatement, oSetLayers, oSetSpatialIndex, osModifiedSQL); std::set<LayerDesc>::iterator oIter = oSetLayers.begin(); if( strcmp(pszStatement, osModifiedSQL.c_str()) != 0 ) CPLDebug("OGR", "Modified SQL: %s", osModifiedSQL.c_str()); pszStatement = osModifiedSQL.c_str(); /* do not use it anymore */ int bFoundOGRStyle = ( osModifiedSQL.ifind("OGR_STYLE") != std::string::npos ); /* -------------------------------------------------------------------- */ /* For each of those tables, create a Virtual Table. */ /* -------------------------------------------------------------------- */ for(; oIter != oSetLayers.end(); ++oIter) { const LayerDesc& oLayerDesc = *oIter; /*CPLDebug("OGR", "Layer desc : %s, %s, %s, %s", oLayerDesc.osOriginalStr.c_str(), oLayerDesc.osSubstitutedName.c_str(), oLayerDesc.osDSName.c_str(), oLayerDesc.osLayerName.c_str());*/ CPLString osSQL; OGRLayer* poLayer = NULL; CPLString osTableName; int nExtraDS; if( oLayerDesc.osDSName.size() == 0 ) { poLayer = poDS->GetLayerByName(oLayerDesc.osLayerName); /* Might be a false positive (unlikely) */ if( poLayer == NULL ) continue; osTableName = oLayerDesc.osLayerName; nExtraDS = -1; osSQL.Printf("CREATE VIRTUAL TABLE \"%s\" USING VirtualOGR(%d,'%s',%d)", OGRSQLiteEscapeName(osTableName).c_str(), nExtraDS, OGRSQLiteEscape(osTableName).c_str(), bFoundOGRStyle); } else { OGRDataSource* poOtherDS = (OGRDataSource* ) OGROpen(oLayerDesc.osDSName, FALSE, NULL); if( poOtherDS == NULL ) { CPLError(CE_Failure, CPLE_AppDefined, "Cannot open datasource '%s'", oLayerDesc.osDSName.c_str() ); delete poSQLiteDS; VSIUnlink(pszTmpDBName); CPLFree(pszTmpDBName); return NULL; } poLayer = poOtherDS->GetLayerByName(oLayerDesc.osLayerName); if( poLayer == NULL ) { CPLError(CE_Failure, CPLE_AppDefined, "Cannot find layer '%s' in '%s'", oLayerDesc.osLayerName.c_str(), oLayerDesc.osDSName.c_str() ); delete poOtherDS; delete poSQLiteDS; VSIUnlink(pszTmpDBName); CPLFree(pszTmpDBName); return NULL; } osTableName = oLayerDesc.osSubstitutedName; nExtraDS = OGR2SQLITE_AddExtraDS(poModule, poOtherDS); osSQL.Printf("CREATE VIRTUAL TABLE \"%s\" USING VirtualOGR(%d,'%s',%d)", OGRSQLiteEscapeName(osTableName).c_str(), nExtraDS, OGRSQLiteEscape(oLayerDesc.osLayerName).c_str(), bFoundOGRStyle); } char* pszErrMsg = NULL; int rc = sqlite3_exec( hDB, osSQL.c_str(), NULL, NULL, &pszErrMsg ); if( rc != SQLITE_OK ) { CPLError(CE_Failure, CPLE_AppDefined, "Cannot create virtual table for layer '%s' : %s", osTableName.c_str(), pszErrMsg); sqlite3_free(pszErrMsg); continue; } if( poLayer->GetGeomType() == wkbNone ) continue; CPLString osGeomColRaw(OGR2SQLITE_GetNameForGeometryColumn(poLayer)); const char* pszGeomColRaw = osGeomColRaw.c_str(); CPLString osGeomColEscaped(OGRSQLiteEscape(pszGeomColRaw)); const char* pszGeomColEscaped = osGeomColEscaped.c_str(); CPLString osLayerNameEscaped(OGRSQLiteEscape(osTableName)); const char* pszLayerNameEscaped = osLayerNameEscaped.c_str(); CPLString osIdxNameRaw(CPLSPrintf("idx_%s_%s", oLayerDesc.osLayerName.c_str(), pszGeomColRaw)); CPLString osIdxNameEscaped(OGRSQLiteEscapeName(osIdxNameRaw)); /* Make sure that the SRS is injected in spatial_ref_sys */ OGRSpatialReference* poSRS = poLayer->GetSpatialRef(); int nSRSId = poSQLiteDS->GetUndefinedSRID(); if( poSRS != NULL ) nSRSId = poSQLiteDS->FetchSRSId(poSRS); int bCreateSpatialIndex = FALSE; if( !bSpatialiteDB ) { osSQL.Printf("INSERT INTO geometry_columns (f_table_name, " "f_geometry_column, geometry_format, geometry_type, " "coord_dimension, srid) " "VALUES ('%s','%s','SpatiaLite',%d,%d,%d)", pszLayerNameEscaped, pszGeomColEscaped, (int) wkbFlatten(poLayer->GetGeomType()), ( poLayer->GetGeomType() & wkb25DBit ) ? 3 : 2, nSRSId); } #ifdef HAVE_SPATIALITE else { /* We detect the need for creating a spatial index by 2 means : */ /* 1) if there's an explicit reference to a 'idx_layername_geometrycolumn' */ /* table in the SQL --> old/traditionnal way of requesting spatial indices */ /* with spatialite. */ std::set<LayerDesc>::iterator oIter2 = oSetLayers.begin(); for(; oIter2 != oSetLayers.end(); ++oIter2) { const LayerDesc& oLayerDescIter = *oIter2; if( EQUAL(oLayerDescIter.osLayerName, osIdxNameRaw) ) { bCreateSpatialIndex = TRUE; break; } } /* 2) or if there's a SELECT FROM SpatialIndex WHERE f_table_name = 'layername' */ if( !bCreateSpatialIndex ) { std::set<CPLString>::iterator oIter3 = oSetSpatialIndex.begin(); for(; oIter3 != oSetSpatialIndex.end(); ++oIter3) { const CPLString& osNameIter = *oIter3; if( EQUAL(osNameIter, oLayerDesc.osLayerName) ) { bCreateSpatialIndex = TRUE; break; } } } if( poSQLiteDS->HasSpatialite4Layout() ) { int nGeomType = poLayer->GetGeomType(); int nCoordDimension = 2; if( nGeomType & wkb25DBit ) { nGeomType += 1000; nCoordDimension = 3; } osSQL.Printf("INSERT INTO geometry_columns (f_table_name, " "f_geometry_column, geometry_type, coord_dimension, " "srid, spatial_index_enabled) " "VALUES ('%s',Lower('%s'),%d ,%d ,%d, %d)", pszLayerNameEscaped, pszGeomColEscaped, nGeomType, nCoordDimension, nSRSId, bCreateSpatialIndex ); } else { const char *pszGeometryType = OGRToOGCGeomType(poLayer->GetGeomType()); if (pszGeometryType[0] == '\0') pszGeometryType = "GEOMETRY"; osSQL.Printf("INSERT INTO geometry_columns (f_table_name, " "f_geometry_column, type, coord_dimension, " "srid, spatial_index_enabled) " "VALUES ('%s','%s','%s','%s',%d, %d)", pszLayerNameEscaped, pszGeomColEscaped, pszGeometryType, ( poLayer->GetGeomType() & wkb25DBit ) ? "XYZ" : "XY", nSRSId, bCreateSpatialIndex ); } } #endif // HAVE_SPATIALITE sqlite3_exec( hDB, osSQL.c_str(), NULL, NULL, NULL ); #ifdef HAVE_SPATIALITE /* -------------------------------------------------------------------- */ /* Should we create a spatial index ?. */ /* -------------------------------------------------------------------- */ if( !bSpatialiteDB || !bCreateSpatialIndex ) continue; CPLDebug("SQLITE", "Create spatial index %s", osIdxNameRaw.c_str()); /* ENABLE_VIRTUAL_OGR_SPATIAL_INDEX is not defined */ #ifdef ENABLE_VIRTUAL_OGR_SPATIAL_INDEX osSQL.Printf("CREATE VIRTUAL TABLE \"%s\" USING " "VirtualOGRSpatialIndex(%d, '%s', pkid, xmin, xmax, ymin, ymax)", osIdxNameEscaped.c_str(), nExtraDS, OGRSQLiteEscape(oLayerDesc.osLayerName).c_str()); rc = sqlite3_exec( hDB, osSQL.c_str(), NULL, NULL, NULL ); if( rc != SQLITE_OK ) { CPLDebug("SQLITE", "Error occured during spatial index creation : %s", sqlite3_errmsg(hDB)); } #else // ENABLE_VIRTUAL_OGR_SPATIAL_INDEX rc = sqlite3_exec( hDB, "BEGIN", NULL, NULL, NULL ); osSQL.Printf("CREATE VIRTUAL TABLE \"%s\" " "USING rtree(pkid, xmin, xmax, ymin, ymax)", osIdxNameEscaped.c_str()); if( rc == SQLITE_OK ) rc = sqlite3_exec( hDB, osSQL.c_str(), NULL, NULL, NULL ); sqlite3_stmt *hStmt = NULL; if( rc == SQLITE_OK ) { const char* pszInsertInto = CPLSPrintf( "INSERT INTO \"%s\" (pkid, xmin, xmax, ymin, ymax) " "VALUES (?,?,?,?,?)", osIdxNameEscaped.c_str()); rc = sqlite3_prepare(hDB, pszInsertInto, -1, &hStmt, NULL); } OGRFeature* poFeature; OGREnvelope sEnvelope; OGR2SQLITE_IgnoreAllFieldsExceptGeometry(poLayer); poLayer->ResetReading(); while( rc == SQLITE_OK && (poFeature = poLayer->GetNextFeature()) != NULL ) { OGRGeometry* poGeom = poFeature->GetGeometryRef(); if( poGeom != NULL && !poGeom->IsEmpty() ) { poGeom->getEnvelope(&sEnvelope); sqlite3_bind_int64(hStmt, 1, (sqlite3_int64) poFeature->GetFID() ); sqlite3_bind_double(hStmt, 2, sEnvelope.MinX); sqlite3_bind_double(hStmt, 3, sEnvelope.MaxX); sqlite3_bind_double(hStmt, 4, sEnvelope.MinY); sqlite3_bind_double(hStmt, 5, sEnvelope.MaxY); rc = sqlite3_step(hStmt); if( rc == SQLITE_OK || rc == SQLITE_DONE ) rc = sqlite3_reset(hStmt); } delete poFeature; } poLayer->SetIgnoredFields(NULL); sqlite3_finalize(hStmt); if( rc == SQLITE_OK ) rc = sqlite3_exec( hDB, "COMMIT", NULL, NULL, NULL ); else { CPLDebug("SQLITE", "Error occured during spatial index creation : %s", sqlite3_errmsg(hDB)); rc = sqlite3_exec( hDB, "ROLLBACK", NULL, NULL, NULL ); } #endif // ENABLE_VIRTUAL_OGR_SPATIAL_INDEX #endif // HAVE_SPATIALITE } /* -------------------------------------------------------------------- */ /* Reload, so that virtual tables are recognized */ /* -------------------------------------------------------------------- */ poSQLiteDS->ReloadLayers(); /* -------------------------------------------------------------------- */ /* Prepare the statement. */ /* -------------------------------------------------------------------- */ /* This will speed-up layer creation */ /* ORDER BY are costly to evaluate and are not necessary to establish */ /* the layer definition. */ int bUseStatementForGetNextFeature = TRUE; int bEmptyLayer = FALSE; sqlite3_stmt *hSQLStmt = NULL; int rc = sqlite3_prepare( hDB, pszStatement, strlen(pszStatement), &hSQLStmt, NULL ); if( rc != SQLITE_OK ) { CPLError( CE_Failure, CPLE_AppDefined, "In ExecuteSQL(): sqlite3_prepare(%s):\n %s", pszStatement, sqlite3_errmsg(hDB) ); if( hSQLStmt != NULL ) { sqlite3_finalize( hSQLStmt ); } delete poSQLiteDS; VSIUnlink(pszTmpDBName); CPLFree(pszTmpDBName); return NULL; } /* -------------------------------------------------------------------- */ /* Do we get a resultset? */ /* -------------------------------------------------------------------- */ rc = sqlite3_step( hSQLStmt ); if( rc != SQLITE_ROW ) { if ( rc != SQLITE_DONE ) { CPLError( CE_Failure, CPLE_AppDefined, "In ExecuteSQL(): sqlite3_step(%s):\n %s", pszStatement, sqlite3_errmsg(hDB) ); sqlite3_finalize( hSQLStmt ); delete poSQLiteDS; VSIUnlink(pszTmpDBName); CPLFree(pszTmpDBName); return NULL; } if( !EQUALN(pszStatement, "SELECT ", 7) ) { sqlite3_finalize( hSQLStmt ); delete poSQLiteDS; VSIUnlink(pszTmpDBName); CPLFree(pszTmpDBName); return NULL; } bUseStatementForGetNextFeature = FALSE; bEmptyLayer = TRUE; } /* -------------------------------------------------------------------- */ /* Create layer. */ /* -------------------------------------------------------------------- */ OGRSQLiteSelectLayer *poLayer = NULL; poLayer = new OGRSQLiteExecuteSQLLayer( pszTmpDBName, poSQLiteDS, pszStatement, hSQLStmt, bUseStatementForGetNextFeature, bEmptyLayer ); if( poSpatialFilter != NULL ) poLayer->SetSpatialFilter( poSpatialFilter ); return poLayer; } /************************************************************************/ /* OGRSQLiteGetReferencedLayers() */ /************************************************************************/ std::set<LayerDesc> OGRSQLiteGetReferencedLayers(const char* pszStatement) { /* -------------------------------------------------------------------- */ /* Analysze the statement to determine which tables will be used. */ /* -------------------------------------------------------------------- */ std::set<LayerDesc> oSetLayers; std::set<CPLString> oSetSpatialIndex; CPLString osModifiedSQL; OGR2SQLITEGetPotentialLayerNames(pszStatement, oSetLayers, oSetSpatialIndex, osModifiedSQL); return oSetLayers; }