从大 osm 文件加载时,调用get_osm(muc_bbox, src)需要花费大量时间(46.151 秒)。我想知道是否可以根据需要从 center_bbox 创建一个 center_bbox?一次将大文件加载到内存中,然后根据要求从中创建小“盒子”?还是有不同的方法来解决这个问题?也许可以将大文件以不同的结构加载到内存中,并根据需要从中创建 bbox,这样总体上会更快?我在这里上传了一个更大的 osm 文件OSM 文件
先感谢您!BR。
library(osmar)
library(igraph)
### Get data ----
src <- osmsource_osmosis(file = "~/streets_bayern.osm")
muc_bbox <- center_bbox(11.575278, 48.137222, 41242.57, 41242.57)
muc <- get_osm(muc_bbox, src)
### Reduce to highways: ----
hways <- subset(muc, way_ids = find(muc, way(tags(k == "highway"))))
hways <- find(hways, way(tags(k == "name")))
hways <- find_down(muc, way(hways))
hways <- subset(muc, ids = hways)
#### Plot data ----
## Plot complete data and highways on top:
plot(muc)
plot_ways(muc, col = "lightgrey")
plot_ways(hways, col = "coral", add = TRUE)
### Define route start and end nodes: ----
id<-find(muc, node(tags(v %agrep% "Sendlinger Tor")))[1]
hway_start_node <-find_nearest_node(muc, id, way(tags(k == "highway")))
hway_start <- subset(muc, node(hway_start_node))
id <- find(muc, node(attrs(lon > 11.58 & lat > 48.15)))[1]
hway_end_node <- find_nearest_node(muc, id, way(tags(k == "highway")))
hway_end <- subset(muc, node(hway_end_node))
## Add the route start and and nodes to the plot:
plot_nodes(hway_start, add = TRUE, col = "red", pch = 19, cex = 2)
plot_nodes(hway_end, add = TRUE, col = "red", pch = 19, cex = 2)
### Create street graph ----
gr <- as.undirected(as_igraph(hways))
### Compute shortest route: ----
# Calculate route
route <- function(start_node,end_node) {
get.shortest.paths(gr,
from = as.character(start_node),
to = as.character(end_node),
mode = "all")[[1]][[1]]}
# Plot route
plot.route <- function(r,color) {
r.nodes.names <- as.numeric(V(gr)[r]$name)
r.ways <- subset(hways, ids = osmar::find_up(hways, node(r.nodes.names)))
plot_ways(r.ways, add = TRUE, col = color, lwd = 2)
}
# Number of new ways to look for
nways <- 10
# Weight factor applied to already found way
weightfactor <- 2
for (numway in 1:nways) {
r <- route(hway_start_node,hway_end_node)
color <- colorRampPalette(c("springgreen","royalblue"))(nways)[numway]
plot.route(r,color)
# Modify current route weight
route_nodes <- as.numeric(V(gr)[r]$name)
#We construct a newosmarobject containing only elements related to the nodes defining the route:
route_ids <- find_up(hways, node(route_nodes))
route_muc <- subset(hways, ids = route_ids)
#Route details.
#In order to present route details like street names,
#distances, and directions we have to work directly on the internals of the osmar objects.
#We start by extracting the route’s node IDs (which are in the correct order) and the way IDs (which we have to order)
#where the nodes are members:
node_ids <- route_muc$nodes$attrs$id
# to delete node ids.
# gr_muc<-delete_vertices(gr_muc, as.character(node_ids[20]))
way_ids <- local({
w <- match(node_ids, route_muc$ways$refs$ref)
route_muc$ways$refs$id[w]
})
#Then we extract the names of the ways in the correct order:>
way_names <- local({
n <- subset(route_muc$ways$tags, k == "name")
n[match(way_ids, n$id), "v"]
})
#The next step is to extract the nodes’ coordinates,>
node_coords <- route_muc$nodes$attrs[, c("lon", "lat")]
#and to compute the distances (meters) and the bearings (degrees) between successive nodes (using thepackagegeosphere):
node_dirs <- local({
n <- nrow(node_coords)
from <- 1:(n - 1)
to <- 2:n
cbind(dist = c(0, distHaversine(node_coords[from,], node_coords[to,])),
bear = c(0, bearing(node_coords[from,], node_coords[to,])))
})
#Finally, we pack together all the information, and additionally compute the cumulative distance
#and a16-point compass rose direction (thecompass()function is available in the “navigator ” demo from theosmarpackage):
route_details <- data.frame(way_names, node_dirs)
route_details$cdist <- cumsum(route_details$dist)
route_details$coord <- node_coords
route_details$id <- node_ids
print(route_details)
