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ReCo.jl/src/setup.jl

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const DEFAULT_PACKING_RATIO = 0.5
const DEFAULT_δt = 1e-5
const DEFAULT_SKIN_TO_INTERACTION_R_RATIO = 2.5
const DEFAULT_EXPORTS_DIR = "exports"
const DEFAULT_PARENT_DIR = ""
const DEFAULT_COMMENT = ""
const DEFAULT_PARTICLE_RADIUS = 0.5
const DEFAULT_Dₜ = 1.0
const DEFAULT_μₜ = 1.0
const DEFAULT_ϵ = 100.0
function initial_particle_grid_pos(
i::Int64, j::Int64, grid_box_width::Float64, half_box_len::Float64
)
term = -0.5 * grid_box_width - half_box_len
return SVector(i * grid_box_width + term, j * grid_box_width + term)
end
function gen_particles(grid_n::Int64, grid_box_width::Float64, half_box_len::Float64)
particles = Vector{Particle}(undef, grid_n^2)
id = 1
for i in 1:grid_n
for j in 1:grid_n
particles[id] = Particle(
id,
initial_particle_grid_pos(i, j, grid_box_width, half_box_len),
rand(Uniform(-π, π)),
)
id += 1
end
end
return particles
end
function gen_particles(bundle::Bundle, n_particles::Int64)
particles = Vector{Particle}(undef, n_particles)
@simd for id in 1:n_particles
particles[id] = Particle(id, bundle.c[id, end], bundle.φ[id, end])
end
return particles
end
function gen_sim_consts(
n_particles::Int64,
v₀::Float64;
δt::Float64=DEFAULT_δt,
packing_ratio::Float64=DEFAULT_PACKING_RATIO,
skin_to_interaction_radius_ratio::Float64=DEFAULT_SKIN_TO_INTERACTION_R_RATIO,
half_box_len::Float64=0.0,
)
@assert n_particles > 0
@assert v₀ >= 0
@assert δt in 1e-7:1e-7:1e-4
@assert packing_ratio > 0
μₜ = DEFAULT_μₜ
Dₜ = DEFAULT_Dₜ
particle_radius = DEFAULT_PARTICLE_RADIUS
Dᵣ = 3 * Dₜ / ((2 * particle_radius)^2)
σ = 2 * particle_radius * 2^(-1 / 6)
ϵ = DEFAULT_ϵ
interaction_radius = 2^(1 / 6) * σ
skin_radius = skin_to_interaction_radius_ratio * interaction_radius
buffer = 3
max_approach_after_one_integration_step = buffer * (2 * v₀ * δt)
@assert skin_radius >= interaction_radius + max_approach_after_one_integration_step
if v₀ != 0.0
n_steps_before_verlet_list_update = floor(
Int64,
(skin_radius - interaction_radius) / max_approach_after_one_integration_step,
)
else
n_steps_before_verlet_list_update = 1000
end
grid_n = round(Int64, ceil(sqrt(n_particles)))
n_particles = grid_n^2
if half_box_len == 0.0
half_box_len = sqrt(n_particles * π / packing_ratio) * σ / 4
elseif packing_ratio != DEFAULT_PACKING_RATIO
error("You can not specify half_box_len and packing_ratio at the same time!")
end
grid_box_width = 2 * half_box_len / grid_n
return SimConsts(
# Input
n_particles,
v₀,
δt,
packing_ratio,
# Internal
μₜ,
Dₜ,
particle_radius,
Dᵣ,
σ,
ϵ,
interaction_radius,
skin_radius,
n_steps_before_verlet_list_update,
grid_n,
half_box_len,
grid_box_width,
)
end
function init_sim_with_sim_consts(
sim_consts::SimConsts;
exports_dir::String=DEFAULT_EXPORTS_DIR,
parent_dir::String=DEFAULT_PARENT_DIR,
comment::String=DEFAULT_COMMENT,
)
particles = gen_particles(
sim_consts.grid_n, sim_consts.grid_box_width, sim_consts.half_box_len
)
bundle = Bundle(sim_consts.n_particles, 1)
save_snapshot!(bundle, 1, 0.0, particles)
dir = exports_dir
if length(parent_dir) > 0
dir *= "/$parent_dir"
end
start_datetime = Dates.now()
dir *= "/$(start_datetime)_N=$(sim_consts.n_particles)_v=$(sim_consts.v₀)_#$(rand(1000:9999))"
if length(comment) > 0
dir *= "_$comment"
end
mkpath(dir)
task = @async JLD2.save_object("$dir/sim_consts.jld2", sim_consts)
save_bundle(dir, bundle, 1, 0.0)
runs_dir = "$dir/runs"
mkpath(runs_dir)
wait(task)
return dir
end
function init_sim(;
n_particles::Int64,
v₀::Float64,
δt::Float64=DEFAULT_δt,
packing_ratio::Float64=DEFAULT_PACKING_RATIO,
skin_to_interaction_radius_ratio::Float64=DEFAULT_SKIN_TO_INTERACTION_R_RATIO,
exports_dir::String=DEFAULT_EXPORTS_DIR,
parent_dir::String=DEFAULT_PARENT_DIR,
comment::String=DEFAULT_COMMENT,
half_box_len::Float64=0.0,
)
sim_consts = gen_sim_consts(
n_particles,
v₀;
δt=δt,
packing_ratio=packing_ratio,
skin_to_interaction_radius_ratio=skin_to_interaction_radius_ratio,
half_box_len,
)
return init_sim_with_sim_consts(
sim_consts; exports_dir=exports_dir, parent_dir=parent_dir, comment=comment
)
end