mo8it/ReCo.jl
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Added the method center_of_mass

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MoBit 2021-12-03 14:16:35 +01:00
parent 02a6dd9489
commit 27591af18b
3 changed files with 56 additions and 15 deletions
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25
graphics/center_of_mass.jl
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@ -1,17 +1,6 @@
using Luxor using Luxor
using ReCo: restrict_coordinate using ReCo: restrict_coordinate, project_to_unit_circle, project_back_from_unit_circle
##
function project(x, L)
φ = (x + L) * π / L
return Point(cos(φ), -sin(φ))
end
function project_back(θ, L)
return θ * L / π - L
end
## ##
@ -26,14 +15,20 @@ A = -0.9 * L
B = 0.65 * L B = 0.65 * L
pr = 0.03 * L pr = 0.03 * L
Ap = project(A, L) Ap_array = project_to_unit_circle(A, L)
Bp = project(B, L) Bp_array = project_to_unit_circle(B, L)
for p in (Ap_array, Bp_array)
p[2] *= -1
end
Ap = Point(Ap_array)
Bp = Point(Bp_array)
M = R * ((Ap + Bp) / 2) M = R * ((Ap + Bp) / 2)
θ = atan(-M[2], M[1]) θ = atan(-M[2], M[1])
COM = restrict_coordinate(project_back(θ, L); l=L) COM = project_back_from_unit_circle(θ, L)
COMp = R * Point(cos(θ), -sin(θ)) COMp = R * Point(cos(θ), -sin(θ))
## ##

1
src/ReCo.jl
View file

@ -7,6 +7,7 @@ include("Particle.jl")
include("data.jl") include("data.jl")
include("setup.jl") include("setup.jl")
include("simulation.jl") include("simulation.jl")
include("shape.jl")
include("run.jl") include("run.jl")
end # module end # module

45
src/shape.jl Normal file
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@ -0,0 +1,45 @@
using StaticArrays: SVector
function project_to_unit_circle(x, l)
φ = (x + l) * π / l
return SVector(cos(φ), sin(φ))
end
function project_back_from_unit_circle(θ, l)
x = θ * l / π - l
return restrict_coordinate(x; l=l)
end
function center_of_mass(args)
x_proj_sum = SVector(0, 0)
y_proj_sum = SVector(0, 0)
for p in args.particles
x_proj_sum += project_to_unit_circle(p.c[1], args.l)
y_proj_sum += project_to_unit_circle(p.c[2], args.l)
end
# Prevent for example atan(1e-16, 1e-15) != 0 with rounding
digits = 5
# No need for 1/N with atan
# If proj is (0, 0) then COM is 0 or L or -L. Here, 0 is choosen with θ = π
if (round(x_proj_sum[1]; digits=digits) == 0) &&
(round(x_proj_sum[2]; digits=digits) == 0)
x_θ = π
else
x_θ = atan(x_proj_sum[2], x_proj_sum[1])
end
if (round(y_proj_sum[1]; digits=digits) == 0) &&
(round(y_proj_sum[2]; digits=digits) == 0)
y_θ = π
else
y_θ = atan(y_proj_sum[2], y_proj_sum[1])
end
return SVector(
project_back_from_unit_circle(x_θ, args.l),
project_back_from_unit_circle(y_θ, args.l),
)
end