Basin Networks

Setup

Load Packages and Import Files

# Load Packages
library(HYPEtools)
library(sf)

# Get Path to HYPEtools Model Example Files
model_path <- system.file("demo_model", package = "HYPEtools")

# Import HYPE Model Files
gd <- ReadGeoData(file.path(model_path, "GeoData.txt"))
gcl <- ReadGeoClass(file.path(model_path, "GeoClass.txt"))

List All Contributing SUBIDs

Find all subbasins upstream of a specified SUBID.

# Select subid for which you want to find the upstream subids
Qobs.sbd <- 3587

# Get a list of all subids contributing to the outlet of the catchment
ups.sbd <- AllUpstreamSubids(subid = Qobs.sbd, gd = gd)
ups.sbd
#>  [1]  3587  3532 63937 63794 63938  3486  3432 40541  3435 40556  3427  3466
#> [13]  3555  3594  3361  3344  3407  3558  3547  3396  3564  3581 63931  3607
#> [25] 63804

Plot Subbasin Routing

Generate an interactive map of subbasin routing.

# import subbasin polygons
map.subid <- st_read(file.path(model_path, "gis", "Nytorp_map.gpkg"))
#> Reading layer `Nytorp_map' from data source 
#>   `C:\Users\a002416\AppData\Local\Temp\Rtmp2nGFZ0\Rinst4543d875693\HYPEtools\demo_model\gis\Nytorp_map.gpkg' 
#>   using driver `GPKG'
#> Simple feature collection with 25 features and 38 fields
#> Geometry type: POLYGON
#> Dimension:     XY
#> Bounding box:  xmin: 518978 ymin: 6413496 xmax: 541065.4 ymax: 6444436
#> Projected CRS: SWEREF99 TM

# Generate map
# PlotSubbasinRouting(map = map.subid, map.subid.column = 25, gd = gd)