# How to remove random diagonal lines from star map vizualizations produced by geom_sf?

## Context

I am in the process of developing a custom star map package called starBliss. While I thought I sucessfully figured out what I needed to from my question, it looks like there is some edge cases where things start to break.

For more background check out the GitHub Issue here

### The Question

I am presently working on a function that takes a constellation lines shapefile and re-projects it based on longitude and latitude values with a Lambert Azimuthal Equal Area projection to create the the night sky of a given location at any given time.

A successful implementation can be seen in with the present `starBliss` package:

``````#devtools::install_github("benyamindsmith/starBliss")
library(ggplot2)
library(starBliss)
date="2022-01-17",
style="black",
line1_text="Toronto",
line2_text ="January 17th, 2023",
line3_text="43.6532° N, 79.3832° W")
ggsave('toronto_black.png', plot = p, width = unit(10, 'in'),
height = unit(15, 'in'))

``````

However this approach does run into problems. For example:

(image is cropped)

``````plot_starmap(
location= "Caracas, Venezuela",
date = as.Date("1991-03-17"),
style = "black")
``````

The above code creates some off diagonal lines (circled in red)

### A reproducible example

I put together a function that will get the constellation lines data and transform it as it presently is. When I use that and plot in `ggplot2` it with `geom_sf` the problem still exists.

``````library(tidyverse)
library(sf)
library(tidygeocoder)
library(lubridate)

custom_starmap <- function(location,
date){

# Formatting Date properly
date<- as.Date(date)
# Formatted date
dt<- lubridate::ymd(date)
# Get Latitude and Longitude for ProjString

# For Latitude

suppressMessages(
capture.output(
lat <- tibble(singlelineaddress = location) %>%
)
)

# Reference date used for calculating longitude
ref_date <- paste0(year(dt),"01","01",sep="-") %>% ymd()
# Resulting longitude
lon <- (-as.numeric(difftime(ref_date,dt, units="days"))/365)*360

# The CRS
projString <- paste0("+proj=laea +x_0=0 +y_0=0 +lon_0=",round(lon,4), " +lat_0=", round(lat,4))

# Data Transformation
flip <- matrix(c(-1, 0, 0, 1), 2, 2)

hemisphere <- st_sfc(st_point(c(lon, lat)), crs = 4326) %>%
st_buffer(dist = 1e7) %>%
st_transform(crs = projString)

# Data source for constellation lines

url1 <- "https://raw.githubusercontent.com/benyamindsmith/starBliss/main/data/constellations.lines.json"

invisible(
capture.output(
constellation_lines_sf <- invisible(st_read(url1, stringsAsFactors = FALSE)) %>%
st_wrap_dateline(options = c("WRAPDATELINE=YES", "DATELINEOFFSET=360")) %>%
st_transform(crs = projString) %>%
st_intersection(hemisphere) %>%
filter(!is.na(st_is_valid(.))) %>%
mutate(geometry = geometry * flip)
)
)

st_crs(constellation_lines_sf) <- projString

return(constellation_lines_sf)
}

# The data

df<-custom_starmap(location= "Caracas, Venezuela",
date = as.Date("1991-03-17"))

df

> Simple feature collection with 49 features and 2 fields
Geometry type: GEOMETRY
Dimension:     XY
Bounding box:  xmin: 8967611 ymin: -8898251 xmax: -8714977 ymax: 9004400
CRS:           +proj=laea +x_0=0 +y_0=0 +lon_0=73.9726 +lat_0=10.488
First 10 features:
id rank                       geometry
1  And    1 MULTILINESTRING ((3542468 3...
2  Ant    3 LINESTRING (-6234955 -52010...
3  Aqr    2 MULTILINESTRING ((8967611 -...
4  Ari    1 LINESTRING (3098546 2071855...
5  Aur    1 MULTILINESTRING ((-1307725 ...
6  Cae    3 LINESTRING (557848.4 -59059...
7  Cam    2 MULTILINESTRING ((-24783.5 ...
8  Cnc    2 MULTILINESTRING ((-6264812 ...
9  CMa    1 MULTILINESTRING ((-2356827 ...
10 CMi    2 LINESTRING (-4432439 -32157..
``````

When I plot this data the lines in question can be seen:

``````df %>% ggplot()+geom_sf()
``````

(circled in red for clarity)

How do I fix this? Is there an issue with the format of the CRS that I am using? Or do I need to crop the lines?

• It just happens that I am working on this topic as well, based on the same SF question you mentioned. I created an alternative set of valid geometries based on the d3-celestial datasets. Maybe you can try these datasets instead: github.com/dieghernan/celestial_data/tree/main/data Commented Jan 23, 2023 at 8:47
• @dieghernan just tried it out. Unfortunately it does not work. Commented Jan 23, 2023 at 14:13

I think it is safer to use `s2` for this type of exercise:

``````library(tidyverse)
library(sf)
#> Linking to GEOS 3.9.3, GDAL 3.5.2, PROJ 8.2.1; sf_use_s2() is TRUE
library(tidygeocoder)
library(lubridate)
#>
#> Attaching package: 'lubridate'
#> The following objects are masked from 'package:base':
#>
#>     date, intersect, setdiff, union

custom_starmap <- function(location,
date){

# Formatting Date properly
date<- as.Date(date)
# Formatted date
dt<- lubridate::ymd(date)
# Get Latitude and Longitude for ProjString

# For Latitude

suppressMessages(
capture.output(
lat <- tibble(singlelineaddress = location) %>%
)
)

# Reference date used for calculating longitude
ref_date <- paste0(year(dt),"01","01",sep="-") %>% ymd()
# Resulting longitude
lon <- (-as.numeric(difftime(ref_date,dt, units="days"))/365)*360

# The CRS
projString <- paste0("+proj=laea +x_0=0 +y_0=0 +lon_0=",round(lon,4), " +lat_0=", round(lat,4))

# Data Transformation
flip <- matrix(c(-1, 0, 0, 1), 2, 2)

# Hemisphere with s2
hemisphere <- s2::s2_buffer_cells(
s2::as_s2_geography(paste0("POINT(", lon, " ", lat, ")")),
distance = 1e7,
max_cells = 5000)

# Data source for constellation lines

url1 <- "https://raw.githubusercontent.com/benyamindsmith/starBliss/main/data/constellations.lines.json"

invisible(
capture.output(
constellation_lines_sf <- invisible(st_read(url1, stringsAsFactors = FALSE)) %>%
st_wrap_dateline(options = c("WRAPDATELINE=YES", "DATELINEOFFSET=360")) %>%
# Use s2 for the cut
st_as_s2() %>%
s2::s2_intersection(hemisphere) %>%
# Back to sf
st_as_sf() %>%
st_transform(crs = projString) %>%
filter(!is.na(st_is_valid(.))) %>%
mutate(geometry = geometry * flip) %>%
# Filter if empty, since the cut can produce empty geometries
filter(!st_is_empty(.))

)
)

st_crs(constellation_lines_sf) <- projString

return(constellation_lines_sf)
}

# The data

df<-custom_starmap(location= "Caracas, Venezuela",
date = as.Date("1991-03-17"))

df
#> Simple feature collection with 48 features and 0 fields
#> Geometry type: GEOMETRY
#> Dimension:     XY
#> Bounding box:  xmin: -8700015 ymin: -8913303 xmax: 8922028 ymax: 8998639
#> CRS:           +proj=laea +x_0=0 +y_0=0 +lon_0=73.9726 +lat_0=10.488
#> First 10 features:
#>                          geometry
#> 1  MULTILINESTRING ((3542468 3...
#> 2  LINESTRING (-6234955 -52010...
#> 3  MULTILINESTRING ((8922028 -...
#> 4  LINESTRING (3098546 2071855...
#> 5  MULTILINESTRING ((-1307725 ...
#> 6  LINESTRING (557848.4 -59059...
#> 7  MULTILINESTRING ((-24783.5 ...
#> 8  MULTILINESTRING ((-6264812 ...
#> 9  MULTILINESTRING ((-2356827 ...
#> 10 LINESTRING (-4432439 -32157...

ggplot(df) +
geom_sf()
``````

Created on 2023-01-23 with reprex v2.0.2