check_user_terr: Built in plotting function to check user-corrected territory...
In h-a-graham/beavertools: Tools to monitor the expansion of beaver populations and predict future territory capacity.
check_user_terr R Documentation
Built in plotting function to check user-corrected territory class assignment.
Description
Function to plot the user-corrected territory classes from: beavertools::user_classify()
Usage
check_user_terr(
terr_poly,
fill_col = c("#7EAAC7", "#F87223", "#61E265"),
label = TRUE,
basemap = FALSE,
basemap_type = "osmgrayscale",
axes_units = TRUE,
scalebar = TRUE,
scalebar_loc = "tl",
north_arrow = TRUE,
north_arrow_loc = "br",
north_arrow_size = 0.75,
wgs = TRUE,
guide = TRUE,
plot_extent
)
Arguments
terr_poly
a territory polygon created using beavertools::estimate_territories()
fill_col
character vector of R colours or HEX codes.
label
label activity areas with polygon ID. important when checking the predicted classification
basemap
Boolean, include an OSM basemap. (optional)
basemap_type
Character vector for osm map type. for options see rosm::osm.types()
axes_units
Boolean to include coordinate values on axis.
scalebar
Boolean to include a scalebar.
scalebar_loc
character vector for the scalebar location one of:'tl', 'bl', 'tr', 'br' Meaning "top left" etc.
north_arrow
Boolean to include a north arrow
north_arrow_loc
character vector for the arrow location one of:'tl', 'bl', 'tr', 'br' Meaning "top left" etc.
north_arrow_size
numeric vector for the arrow
wgs
Boolean to transform coordinate reference system (CRS) to WGS84 (EPSG:4326)
guide
Boolean to include a legend
plot_extent
'bbox', 'sf' or 'sp' object defining the desired plot extent.
Value
ggplot object of the territory check map.
Examples
# Here we filter the filter the built in 2019-2020 ROBT feeding sign data `RivOtter_FeedSigns`
# Then pipe this 'sf' object to forage_density.
ROBT_201920 <- RivOtter_FeedSigns %>%
dplyr::filter(SurveySeason == "2019 - 2020")%>%
forage_density(., 'FeedCat')
# Now we load the ROBT `RivOtter_OtherSigns` dataset and filter to the same
# year as the forage density raster.
CS_201920 <- RivOtter_OtherSigns %>%
dplyr::filter(SurveySeason == "2019 - 2020")
# run territory classification
otter_poly <- estimate_territories(ROBT_201920, confirm_signs = CS_201920)
# create the map for checking automated territory classification
otter_poly_uc <- user_classify(otter_poly, territory = c(10, 28))
# generate the user territory check plot.
check_user_terr(otter_poly_uc, basemap=FALSE)
h-a-graham/beavertools documentation built on July 21, 2023, 12:47 a.m.
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| check_user_terr | R Documentation |
Built in plotting function to check user-corrected territory class assignment.
Description
Function to plot the user-corrected territory classes from: beavertools::user_classify()
Usage
check_user_terr(
terr_poly,
fill_col = c("#7EAAC7", "#F87223", "#61E265"),
label = TRUE,
basemap = FALSE,
basemap_type = "osmgrayscale",
axes_units = TRUE,
scalebar = TRUE,
scalebar_loc = "tl",
north_arrow = TRUE,
north_arrow_loc = "br",
north_arrow_size = 0.75,
wgs = TRUE,
guide = TRUE,
plot_extent
)
Arguments
terr_poly |
a territory polygon created using |
fill_col |
character vector of R colours or HEX codes. |
label |
label activity areas with polygon ID. important when checking the predicted classification |
basemap |
Boolean, include an OSM basemap. (optional) |
basemap_type |
Character vector for osm map type. for options see |
axes_units |
Boolean to include coordinate values on axis. |
scalebar |
Boolean to include a scalebar. |
scalebar_loc |
character vector for the scalebar location one of:'tl', 'bl', 'tr', 'br' Meaning "top left" etc. |
north_arrow |
Boolean to include a north arrow |
north_arrow_loc |
character vector for the arrow location one of:'tl', 'bl', 'tr', 'br' Meaning "top left" etc. |
north_arrow_size |
numeric vector for the arrow |
wgs |
Boolean to transform coordinate reference system (CRS) to WGS84 (EPSG:4326) |
guide |
Boolean to include a legend |
plot_extent |
'bbox', 'sf' or 'sp' object defining the desired plot extent. |
Value
ggplot object of the territory check map.
Examples
# Here we filter the filter the built in 2019-2020 ROBT feeding sign data `RivOtter_FeedSigns`
# Then pipe this 'sf' object to forage_density.
ROBT_201920 <- RivOtter_FeedSigns %>%
dplyr::filter(SurveySeason == "2019 - 2020")%>%
forage_density(., 'FeedCat')
# Now we load the ROBT `RivOtter_OtherSigns` dataset and filter to the same
# year as the forage density raster.
CS_201920 <- RivOtter_OtherSigns %>%
dplyr::filter(SurveySeason == "2019 - 2020")
# run territory classification
otter_poly <- estimate_territories(ROBT_201920, confirm_signs = CS_201920)
# create the map for checking automated territory classification
otter_poly_uc <- user_classify(otter_poly, territory = c(10, 28))
# generate the user territory check plot.
check_user_terr(otter_poly_uc, basemap=FALSE)
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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