move: Move the population to a new location in a given amount of...
In slendr: A Simulation Framework for Spatiotemporal Population Genetics
move R Documentation
Move the population to a new location in a given amount of time
Description
This function defines a displacement of a population along a given trajectory
in a given time frame
Usage
move(
pop,
trajectory,
end,
start,
overlap = 0.8,
snapshots = NULL,
verbose = TRUE
)
Arguments
pop
Object of the class slendr_pop
trajectory
List of two-dimensional vectors (longitude, latitude)
specifying the migration trajectory
start, end
Start/end points of the population migration
overlap
Minimum overlap between subsequent spatial boundaries
snapshots
The number of intermediate snapshots (overrides the
overlap parameter)
verbose
Show the progress of searching through the number of
sufficient snapshots?
Value
Object of the class slendr_pop, which contains population
parameters such as name, time of appearance in the simulation, parent
population (if any), and its spatial parameters such as map and spatial
boundary.
Examples
# spatial definitions -----------------------------------------------------
# create a blank abstract world 1000x1000 distance units in size
map <- world(xrange = c(0, 1000), yrange = c(0, 1000), landscape = "blank")
# create a circular population with the center of a population boundary at
# [200, 800] and a radius of 100 distance units, 1000 individuals at time 1
# occupying a map just specified
pop1 <- population("pop1", N = 1000, time = 1,
map = map, center = c(200, 800), radius = 100)
# printing a population object to a console shows a brief summary
pop1
# create another population occupying a polygon range, splitting from pop1
# at a given time point (note that specifying a map is not necessary because
# it is "inherited" from the parent)
pop2 <- population("pop2", N = 100, time = 50, parent = pop1,
polygon = list(c(100, 100), c(320, 30), c(500, 200),
c(500, 400), c(300, 450), c(100, 400)))
pop3 <- population("pop3", N = 200, time = 80, parent = pop2,
center = c(800, 800), radius = 200)
# move "pop1" to another location along a specified trajectory and saved the
# resulting object to the same variable (the number of intermediate spatial
# snapshots can be also determined automatically by leaving out the
# `snapshots = ` argument)
pop1_moved <- move(pop1, start = 100, end = 200, snapshots = 6,
trajectory = list(c(600, 820), c(800, 400), c(800, 150)))
pop1_moved
# many slendr functions are pipe-friendly, making it possible to construct
# pipelines which construct entire history of a population
pop1 <- population("pop1", N = 1000, time = 1,
map = map, center = c(200, 800), radius = 100) %>%
move(start = 100, end = 200, snapshots = 6,
trajectory = list(c(400, 800), c(600, 700), c(800, 400), c(800, 150))) %>%
set_range(time = 300, polygon = list(
c(400, 0), c(1000, 0), c(1000, 600), c(900, 400), c(800, 250),
c(600, 100), c(500, 50))
)
# population ranges can expand by a given distance in all directions
pop2 <- expand_range(pop2, by = 200, start = 50, end = 150, snapshots = 3)
# we can check the positions of all populations interactively by plotting their
# ranges together on a single map
plot_map(pop1, pop2, pop3)
# gene flow events --------------------------------------------------------
# individual gene flow events can be saved to a list
gf <- list(
gene_flow(from = pop1, to = pop3, start = 150, end = 200, rate = 0.15),
gene_flow(from = pop1, to = pop2, start = 300, end = 330, rate = 0.25)
)
# compilation -------------------------------------------------------------
# compile model components in a serialized form to dist, returning a single
# slendr model object (in practice, the resolution should be smaller)
model <- compile_model(
populations = list(pop1, pop2, pop3), generation_time = 1,
resolution = 100, simulation_length = 500,
competition = 5, mating = 5, dispersal = 1
)
slendr documentation built on Aug. 8, 2023, 5:08 p.m.
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| move | R Documentation |
Move the population to a new location in a given amount of time
Description
This function defines a displacement of a population along a given trajectory in a given time frame
Usage
move(
pop,
trajectory,
end,
start,
overlap = 0.8,
snapshots = NULL,
verbose = TRUE
)
Arguments
pop |
Object of the class |
trajectory |
List of two-dimensional vectors (longitude, latitude) specifying the migration trajectory |
start, end |
Start/end points of the population migration |
overlap |
Minimum overlap between subsequent spatial boundaries |
snapshots |
The number of intermediate snapshots (overrides the
|
verbose |
Show the progress of searching through the number of sufficient snapshots? |
Value
Object of the class slendr_pop, which contains population
parameters such as name, time of appearance in the simulation, parent
population (if any), and its spatial parameters such as map and spatial
boundary.
Examples
# spatial definitions -----------------------------------------------------
# create a blank abstract world 1000x1000 distance units in size
map <- world(xrange = c(0, 1000), yrange = c(0, 1000), landscape = "blank")
# create a circular population with the center of a population boundary at
# [200, 800] and a radius of 100 distance units, 1000 individuals at time 1
# occupying a map just specified
pop1 <- population("pop1", N = 1000, time = 1,
map = map, center = c(200, 800), radius = 100)
# printing a population object to a console shows a brief summary
pop1
# create another population occupying a polygon range, splitting from pop1
# at a given time point (note that specifying a map is not necessary because
# it is "inherited" from the parent)
pop2 <- population("pop2", N = 100, time = 50, parent = pop1,
polygon = list(c(100, 100), c(320, 30), c(500, 200),
c(500, 400), c(300, 450), c(100, 400)))
pop3 <- population("pop3", N = 200, time = 80, parent = pop2,
center = c(800, 800), radius = 200)
# move "pop1" to another location along a specified trajectory and saved the
# resulting object to the same variable (the number of intermediate spatial
# snapshots can be also determined automatically by leaving out the
# `snapshots = ` argument)
pop1_moved <- move(pop1, start = 100, end = 200, snapshots = 6,
trajectory = list(c(600, 820), c(800, 400), c(800, 150)))
pop1_moved
# many slendr functions are pipe-friendly, making it possible to construct
# pipelines which construct entire history of a population
pop1 <- population("pop1", N = 1000, time = 1,
map = map, center = c(200, 800), radius = 100) %>%
move(start = 100, end = 200, snapshots = 6,
trajectory = list(c(400, 800), c(600, 700), c(800, 400), c(800, 150))) %>%
set_range(time = 300, polygon = list(
c(400, 0), c(1000, 0), c(1000, 600), c(900, 400), c(800, 250),
c(600, 100), c(500, 50))
)
# population ranges can expand by a given distance in all directions
pop2 <- expand_range(pop2, by = 200, start = 50, end = 150, snapshots = 3)
# we can check the positions of all populations interactively by plotting their
# ranges together on a single map
plot_map(pop1, pop2, pop3)
# gene flow events --------------------------------------------------------
# individual gene flow events can be saved to a list
gf <- list(
gene_flow(from = pop1, to = pop3, start = 150, end = 200, rate = 0.15),
gene_flow(from = pop1, to = pop2, start = 300, end = 330, rate = 0.25)
)
# compilation -------------------------------------------------------------
# compile model components in a serialized form to dist, returning a single
# slendr model object (in practice, the resolution should be smaller)
model <- compile_model(
populations = list(pop1, pop2, pop3), generation_time = 1,
resolution = 100, simulation_length = 500,
competition = 5, mating = 5, dispersal = 1
)
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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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