#' Piirkonnale andmebaasides olevate punktide teisendamine #' #' Etteantud piirkonna geomeetrilise piirjoone ('piir') ja selle joone piirikasti ('bb') järele leitakse nende aladega kaetud punktid. Andmed salvestatakse postgis andmebaasi. #' #' @param obj str Objekti nimi. Edaspidi on oluline ainult see nimi. Piirkonna geomeetrilist joont ei ole vaja lisada. #' @param conf A list() of configuration variables. Default values \code{\link[ruut]{get_config}}. #' @return Uute andmebaasi kihtide 'piir_...' ja 'bb_...' loomine. #' @seealso [sf::st_read()], [sf::write_sf()],[sf::st_transform()],[ruut::pk_sellest_alustame_db_loomist()],[ruut::pk_lisame_ruudustikud()] ,[ruut::pk_lisame_polygoonid()],[ruut::pk_lisame_jooned()],[ruut::pk_lisame_punktid()],[ruut::pk_lisame_piirkonnale_punktid()],[ruut::pk_teisendame_polygoone()],[ruut::pk_teisendame_jooni()],[ruut::pk_teisendame_punkte()] #' @keywords postgis, boundary box, EPSG:3301 #' @export #' @examples #' \dontrun{ #' #' obj <- "marja" #' pk_teisendame_punkte(obj = obj, conf = NULL) #' #' # Layers list. #' ruut::db_schema_tablenames(conf = conf) #' } pk_teisendame_punkte <- function(obj = NULL, conf = NULL) { obj <- gsub(" ", "_", tolower(obj)) ## Konfiguratsiooni muutujale väärtuste omistamine, kui seda pole antud. if (is.null(conf)) { conf <- ruut::get_config() conf$schema <- obj } if (!any("piir" %in% ruut::db_schema_tablenames(conf = conf))) { cat("\nAndmebaas loomata. Palun funktsiooniga ruut::pk_sellest_alustame_db_loomist() andmebaasi loomist.\n") return(NULL) } ## ------------- muutujad ja teisendused --------------- conn <- ruut::db_connect(conf = conf) try(piir <- sf::st_read(dsn = conn, layer = c(conf$schema, "piir"))) tmp_dir <- tempdir() tmp_gpkg_file <- sprintf("%s/%s.gpkg", tmp_dir, obj) # system(sprintf("touch %s", tmp_gpkg_file)) conf$gpkg_home <- tmp_dir conf$gpkg_file <- obj conf$gpkg_table <- "test_layer" tmp_gpkg_file_output <- ruut::construct_to_gpkg_output_file_str(conf = conf, is_input_str = F) tmp_gpkg_file_input <- ruut::construct_to_gpkg_output_file_str(conf = conf, is_input_str = T) conf$gpkg_table <- "test_layer_2" tmp_gpkg_file_output_2 <- ruut::construct_to_gpkg_output_file_str(conf = conf, is_input_str = F) tmp_gpkg_file_input_2 <- ruut::construct_to_gpkg_output_file_str(conf = conf, is_input_str = T) # write to gpkg sf::write_sf(piir, dsn = tmp_gpkg_file, layer = "piir", driver = "gpkg", fid_column_name = "id", delete_dsn = T) # unlink(tmp_gpkg_file) ## ====================== teisendused ===================== # Layers list conf$schema <- obj layer_names <- ruut::db_schema_tablenames(conf = conf) layer_names <- layer_names[!layer_names %in% c("bb2", "epk10t_grid", "epk02t_grid", "epk2t_grid")] # c("bb", "bb2", "bb_epk10t_grid", "bb_epk02t_grid", "bb_epk2t_grid", "bb_epk10t", "bb_epk02t")] for (layer_name in layer_names) { try(ruumiline_obj <- sf::st_read(dsn = conn, layer = c(conf$schema, layer_name))) ## ------------- Punktide arv ruudus --------------- ## Kontlrollime kas geomeetriline objekt on punkt. (is_point <- any(grepl("point", tolower(attributes(ruumiline_obj$geom)$class), fixed = TRUE))) if (is_point) { # ruut::qgis_algorithm_search_by_word("Count") algorithm <- "native:countpointsinpolygon" conf$table <- sprintf("%s", layer_name) points <- ruut::construct_to_gpkg_output_postgres_str( conf = conf, geometry_type = "Point", srid = 3301, checkPrimaryKeyUnicity = TRUE, key = "id", geometry_field = "geom" ) conf$table <- sprintf("%s", "epk02t_grid") polygons <- ruut::construct_to_gpkg_output_postgres_str( conf = conf, geometry_type = "MultiPolygon", srid = 3301, checkPrimaryKeyUnicity = TRUE, key = "id", geometry_field = "geom" ) conf$table <- sprintf("%s_epk02t", layer_name) output <- ruut::construct_to_gpkg_output_postgres_str(conf = conf, geometry_field = "geom", geometry_type = "Polygon", srid = 3301, checkPrimaryKeyUnicity = FALSE, key = "id") str <- sprintf("{ 'CLASSFIELD' : '', 'FIELD' : 'numpoints', 'OUTPUT' : '%s', 'POINTS' : '%s', 'POLYGONS' : '%s', 'WEIGHT' : '' }", output, points, polygons) cmd <- ruut::construct_qgis_output_result_to_better_format(str = str, algorithm = algorithm) system(cmd) ## ------------- TIFF ---------------- grid_layer <- sf::read_sf(dsn = conn, layer = c(conf$schema, "epk02t_grid")) # sf::st_crs(grid_layer) <- 3301 pk_attributes <- attributes(grid_layer$geom) extent <- sprintf("%s,%s,%s,%s [EPSG:3301]", round((pk_attributes$bbox["xmin"] / 100), digits = 0) * 100, ceiling((pk_attributes$bbox["xmax"] / 100)) * 100, round((pk_attributes$bbox["ymin"] / 100), digits = 0) * 100, ceiling((pk_attributes$bbox["ymax"] / 100)) * 100) # ruut::qgis_algorithm_search_by_word("Rasterize") algorithm <- "gdal:rasterize" # ruut::qgis_show_help(algorithm = algorithm) conf$table <- sprintf("%s_epk02t", layer_name) input <- ruut::construct_to_gpkg_output_postgres_str( conf = conf, geometry_type = "MultiPolygon", srid = 3301, checkPrimaryKeyUnicity = TRUE, key = "id", geometry_field = "geom" ) output <- sprintf("%s/%s.tif", tmp_dir, layer_name) str <- sprintf("{ 'BURN' : 0, 'DATA_TYPE' : 5, 'EXTENT' : '%s', 'EXTRA' : '-a_srs epsg:3301', 'FIELD' : 'numpoints', 'HEIGHT' : 100, 'INIT' : None, 'INPUT' : '%s', 'INVERT' : False, 'NODATA' : -1, 'OPTIONS' : '', 'OUTPUT' : '%s', 'UNITS' : 1, 'WIDTH' : 100 }", extent, input, output) cmd <- ruut::construct_qgis_output_result_to_better_format(str = str, algorithm = algorithm) system(cmd) # Salvestame kataloogi ## ----------- TIF TO POSTGIS ------------- conf$schema <- obj (cmd <- sprintf( "export PGPASSWORD=%s && raster2pgsql -I %s %s.%s_tif | psql -U %s -d %s -h %s -p %s", conf$password, output, conf$schema, layer_name, conf$user, conf$dbname, conf$host, conf$port )) system(cmd) } } ## Layers list conf$schema <- obj ruut::db_schema_tablenames(conf = conf) sf::st_layers(dsn = tmp_gpkg_file) }