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## ----setup,include=FALSE,message=FALSE,warning=FALSE----------------------------------------------------------------------------------------------------------------------------------------------------- | |
library("here") # 1.0.1 | |
library("sf") # 1.0-14 | |
library("rgl") # 1.2.1 | |
library("geoviz") # 0.2.2 | |
library("raster") # 3.6-26 | |
library("rayshader") # 0.35.7 | |
library("osmdata") # 0.2.5 | |
library("tidyverse") # 2.0.0 | |
## ----load_elevation_data--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | |
# set this path to wherever you've saved the elevation data - it can be downloaded from https://download.pdok.nl/rws/ahn3/v1_0/05m_dsm/R_13DN2.ZIP | |
elevation_data <- here::here("data/elevation_data/bourtange") | |
# this data can be downloaded from | |
elevation_file <- elevation_data %>% | |
file.path("R_13DN2.TIF") | |
elevation_raster <- elevation_file %>% | |
raster::raster() | |
raster::crs(elevation_raster) <- "EPSG:28992" | |
raster_crs <- elevation_raster %>% | |
raster::crs() | |
## ----zoom_to_fortress------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ | |
xmin <- 7.1869551422 | |
xmax <- 7.1971968768 | |
ymin <- 53.0042753099 | |
ymax <- 53.0105807242 | |
cropped_extent <- raster::extent(c(xmin, xmax, ymin, ymax)) %>% | |
sf::st_bbox(crs = 4326) %>% | |
sf::st_as_sfc() %>% | |
sf::st_transform(crs = raster_crs) %>% | |
sf::st_bbox() %>% | |
raster::extent() | |
cropped_raster <- elevation_raster %>% | |
raster::crop(y = cropped_extent) | |
plot(cropped_raster) | |
## ----scale_matrix---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | |
scaling_factor <- 1 # set > 1 to reduce size of matrix | |
raster_matrix <- cropped_raster %>% | |
rayshader::raster_to_matrix(verbose = FALSE) %>% | |
rayshader::resize_matrix(scale = 1 / scaling_factor) | |
# set missing values to -1 (assume this is water) | |
raster_matrix[is.na(raster_matrix)] <- -1 | |
## ----calculate_zscale------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ | |
zscale_scaling_factor <- 1 | |
estimated_zscale <- cropped_raster %>% | |
geoviz::raster_zscale() | |
# this can be scaled to exaggerate elevation | |
scaled_zscale <- estimated_zscale * zscale_scaling_factor | |
## ----build_base_map-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | |
base_map <- raster_matrix %>% | |
rayshader::height_shade() %>% | |
rayshader::add_overlay(rayshader::sphere_shade(raster_matrix, colorintensity = 5), | |
alphalayer = 0.5) %>% | |
rayshader::add_overlay( | |
rayshader::sphere_shade(raster_matrix, | |
texture = "desert", | |
colorintensity = 5), | |
alphalayer = 0.5 | |
) %>% | |
rayshader::add_shadow(rayshader::lamb_shade(raster_matrix), 0) %>% | |
rayshader::add_shadow(rayshader::ambient_shade(raster_matrix), 0) %>% | |
rayshader::add_shadow( | |
rayshader::texture_shade( | |
raster_matrix, | |
detail = 8 / 10, | |
contrast = 9, | |
brightness = 11 | |
), | |
0.1 | |
) | |
## ----get_osm_overlays------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ | |
# yes, this is basically the same code copied and pasted - don't tell @hadley | |
bbox_long_lat <- sf::st_bbox(cropped_raster) %>% | |
sf::st_as_sfc() %>% | |
sf::st_transform(crs = 4326) %>% | |
sf::st_bbox() | |
# get highways | |
bourtange_footways <- osmdata::opq(bbox_long_lat) %>% | |
osmdata::add_osm_feature("highway") %>% | |
osmdata::osmdata_sf() | |
footway_geom <- bourtange_footways$osm_lines %>% | |
sf::st_transform(crs = raster_crs) | |
footway_overlay <- footway_geom %>% | |
rayshader::generate_line_overlay( | |
extent = cropped_extent, | |
heightmap = raster_matrix, | |
color = "gainsboro", | |
linewidth = 2 | |
) | |
# get trees | |
bourtange_trees <- osmdata::opq(bbox_long_lat) %>% | |
osmdata::add_osm_feature("landuse", "forest") %>% | |
osmdata::osmdata_sf() | |
trees_geom <- bourtange_trees$osm_polygons %>% | |
sf::st_transform(crs = raster_crs) | |
tree_overlay <- trees_geom %>% | |
rayshader::generate_line_overlay(extent = cropped_extent, | |
heightmap = raster_matrix, | |
color = "darkolivegreen") | |
# get grassy areas | |
bourtange_grass <- osmdata::opq(bbox_long_lat) %>% | |
osmdata::add_osm_feature("landuse", "grass") %>% | |
osmdata::osmdata_sf() | |
grass_geom <- bourtange_grass$osm_polygons %>% | |
sf::st_transform(crs = raster_crs) | |
grass_overlay <- grass_geom %>% | |
rayshader::generate_line_overlay(extent = cropped_extent, | |
heightmap = raster_matrix, | |
color = "darkolivegreen") | |
# get buildings | |
bourtange_buildings <- osmdata::opq(bbox_long_lat) %>% | |
osmdata::add_osm_feature("building") %>% | |
osmdata::osmdata_sf() | |
buildings_geom <- bourtange_buildings$osm_polygons %>% | |
sf::st_transform(crs = raster_crs) | |
building_overlay <- buildings_geom %>% | |
rayshader::generate_polygon_overlay(extent = cropped_extent, | |
heightmap = raster_matrix, | |
palette = "sienna1") | |
# get windmill | |
windmill <- osmdata::opq(bbox_long_lat) %>% | |
osmdata::add_osm_feature("man_made", "windmill") %>% | |
osmdata::osmdata_sf() | |
windmill_geom <- windmill$osm_polygons %>% | |
sf::st_transform(crs = raster_crs) | |
windmill_overlay <- windmill_geom %>% | |
rayshader::generate_polygon_overlay(extent = cropped_extent, | |
heightmap = raster_matrix, | |
palette = "darkgrey") | |
## ----render_overhead_map---------------------------------------------------------------------------------------------------------------------------------------------------------------------- | |
base_map %>% | |
rayshader::add_overlay(overlay = footway_overlay, alphalayer = 0.95) %>% | |
rayshader::add_overlay(overlay = building_overlay, alphalayer = 0.75) %>% | |
rayshader::add_overlay(overlay = tree_overlay, alphalayer = 0.6) %>% | |
rayshader::add_overlay(overlay = grass_overlay, alphalayer = 0.6) %>% | |
rayshader::add_overlay(overlay = windmill_overlay, alphalayer = 0.85) %>% | |
rayshader::plot_3d( | |
raster_matrix, | |
water = TRUE, | |
watercolor = "dodgerblue", | |
windowsize = c(1200, 1200), | |
zscale = estimated_zscale | |
) | |
rayshader::render_camera(theta = 0, phi = 89.999, zoom = 0.75) # setting phi = 90 seems to cause problems for rayshader? | |
rayshader::render_highquality( | |
filename = "bourtange_overhead.png", | |
lightaltitude = c(22.5, 75), | |
lightintensity = c(1000, 200), | |
lightdirection = c(250, 0), | |
print_scene_info = TRUE, | |
samples = 100, | |
parallel = TRUE, | |
min_variance = 0, | |
verbose = TRUE | |
) | |
rgl::rgl.close() | |
## ----render_zoomed_map------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | |
# base_map %>% | |
# rayshader::add_overlay(overlay = footway_overlay, alphalayer = 0.95) %>% | |
# rayshader::add_overlay(overlay = building_overlay, alphalayer = 0.75) %>% | |
# rayshader::add_overlay(overlay = tree_overlay, alphalayer = 0.6) %>% | |
# rayshader::add_overlay(overlay = grass_overlay, alphalayer = 0.6) %>% | |
# rayshader::add_overlay(overlay = windmill_overlay, alphalayer = 0.85) %>% | |
# rayshader::plot_3d( | |
# raster_matrix, | |
# water = TRUE, | |
# watercolor = "dodgerblue", | |
# windowsize = c(1200, 1200), | |
# zscale = estimated_zscale | |
# ) | |
# | |
# rayshader::render_camera(theta = 50, phi = 30, zoom = 0.2, fov = 135) | |
# | |
# rayshader::render_depth(focus = 0.9, focallength = 400, aberration = 0.4) | |
# | |
# rayshader::render_highquality( | |
# filename = "bourtange_zoomed.png", | |
# lightaltitude = c(22.5, 75), | |
# lightintensity = c(1000, 200), | |
# lightdirection = c(250, 0), | |
# print_scene_info = TRUE, | |
# samples = 500, | |
# parallel = TRUE, | |
# min_variance = 0, | |
# verbose = TRUE | |
# ) | |
# rgl::rgl.close() | |
# | |
# |
OK, it looks like something might be off with the projection one or other of the layers is using.
I haven't looked at this code for a long time, but I'll try to take a look at the weekend.
Thank you so much. I have been trying for a long time to figure out what is the problem.
OK, it looks like manually specifying the projection used in the elevation data does the trick.
According to this paper, the data was uploaded using the EPSG:28992 projection.
So, adding the line:
raster::crs(elevation_raster) <- "EPSG:28992"
after
elevation_raster <- elevation_file %>% raster::raster()
should fix the alignment. I have no idea why it worked before, though I think some changes have happened over the last year or so with regards PROJ4 projections.
I'll update the gist itself when I get a chance. Hope that helps!
EDIT: I should add that I tested this using the most up-to-date versions of the packages listed at the top of the script. I'll update the version numbers there.
Thank you very much for spending your time to help me on solving this issue.
For a better understanding of what is happenin
g I send you an image of whats happening.