using StaticArrays: SVector mutable struct Particle id::Int64 c::SVector{2,Float64} # Center tmp_c::SVector{2,Float64} # Temporary center φ::Float64 # Angle function Particle(id::Int64, c::SVector{2,Float64}, φ::Float64) return new(id, c, c, φ) end end function gen_tmp_particle() return Particle(0, SVector(0.0, 0.0), 0.0) end function restrict_coordinate(value::Float64, half_box_len::Float64) if value < -half_box_len value += 2 * half_box_len elseif value >= half_box_len value -= 2 * half_box_len end return value end function restrict_coordinates(v::SVector{2,Float64}, half_box_len::Float64) return SVector( restrict_coordinate(v[1], half_box_len), restrict_coordinate(v[2], half_box_len) ) end function restrict_coordinates!(p::Particle, half_box_len::Float64) p.tmp_c = restrict_coordinates(p.tmp_c, half_box_len) return nothing end function are_overlapping( c1::SVector{2,Float64}, c2::SVector{2,Float64}, overlapping_r²::Float64, half_box_len::Float64, ) r⃗₁₂ = c2 - c1 # 1 -> 2 r⃗₁₂ = restrict_coordinates(r⃗₁₂, half_box_len) distance² = sq_norm2d(r⃗₁₂) overlapping = distance² < overlapping_r² return (; overlapping, r⃗₁₂, distance²) end