Mon, 06 May 2024 20:03:44 -0500
Add arXiv link for new paper to README
# From https://github.com/LMescheder/Radon.jl/blob/master/src/Radon.jl # Updated to modern Julia. Fixed radon! to zero out `radonim`. __precompile__() module Radon export radon!, backproject! # package code goes here function radon(im::AbstractArray{T, 2}) where T<:AbstractFloat Nx, Ny = size(im) radonim = similar(im, min(Nx, Ny), max(Nx, Ny)) radon!(radonim, im) radonim end function radon!(radonim::AbstractArray{T, 2}, im::AbstractArray{T, 2}) where T<:AbstractFloat Nφ, Ns = size(radonim) Nx, Ny = size(im) Ldiag = hypot(Nx, Ny) K = round(Int, Ldiag) dLz = Ldiag/(K-1) dLs = Ldiag/(Ns-1) dφ = π/Nφ @inbounds for is = 1:Ns, iφ = 1:Nφ φ = (iφ-1)*dφ s = -Ldiag/2 + (is-1)*dLs tx = cos(φ) ty = sin(φ) radonim[iφ, is] = zero(T) for k=1:K z = -Ldiag/2 + (k-1)*dLz x = round(Int, Nx/2 + z*ty + s*tx) y = round(Int, Ny/2 - z*tx + s*ty) if 1 <= x <= Nx && 1 <= y <= Ny radonim[iφ, is] += im[x, y]*dLz end end end radonim end function backproject(radonim::AbstractArray{T, 2}) where T<:AbstractFloat Nφ, Ns = size(radonim) im = similar(radonim, Ns, Ns) backproject!(im, radonim) im end function backproject!(im::AbstractArray{T, 2}, radonim::AbstractArray{T, 2}) where T<:AbstractFloat Nφ, Ns = size(radonim) Nx, Ny = size(im) Ldiag = hypot(Nx, Ny) K = round(Int, Ldiag) dLz = Ldiag/(K-1) dLs = Ldiag/(Ns-1) dφ = π/Nφ im .= 0. @inbounds for is = 1:Ns, iφ = 1:Nφ φ = (iφ-1)*dφ s = -Ldiag/2 + (is-1)*dLs tx = cos(φ) ty = sin(φ) for k=1:K z = -Ldiag/2 + (k-1)*dLz x = round(Int, Nx/2 + z*ty + s*tx) y = round(Int, Ny/2 - z*tx + s*ty) if 1 <= x <= Nx && 1 <= y <= Ny im[x, y] += radonim[iφ, is]*dLz end end end im end end # module