O/◯ᴥᗱᗴᗝИNᗱᗴᙁ⚭ⵙ⚭ᙁᗱᗴИNᗝᗱᗴᴥ◯/2.90/SCRIPTS/ADDONS/TISSUE-MASTER/NUMBA_FUNCTIONS.PY

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#  as published by the Free Software Foundation; either version 2
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import numpy as np
try:
    from numba import jit
    print("Tissue: Numba module loaded succesfully")
    @jit
    def numba_reaction_diffusion(n_verts, n_edges, edge_verts, a, b, diff_a, diff_b, f, k, dt, time_steps):
        arr = np.arange(n_edges)*2
        id0 = edge_verts[arr]     # first vertex indices for each edge
        id1 = edge_verts[arr+1]   # second vertex indices for each edge
        for i in range(time_steps):
            lap_a = np.zeros(n_verts)
            lap_b = np.zeros(n_verts)
            lap_a0 =  a[id1] -  a[id0]   # laplacian increment for first vertex of each edge
            lap_b0 =  b[id1] -  b[id0]   # laplacian increment for first vertex of each edge

            for i, j, la0, lb0 in zip(id0,id1,lap_a0,lap_b0):
                lap_a[i] += la0
                lap_b[i] += lb0
                lap_a[j] -= la0
                lap_b[j] -= lb0
            ab2 = a*b**2
            #a += eval("(diff_a*lap_a - ab2 + f*(1-a))*dt")
            #b += eval("(diff_b*lap_b + ab2 - (k+f)*b)*dt")
            a += (diff_a*lap_a - ab2 + f*(1-a))*dt
            b += (diff_b*lap_b + ab2 - (k+f)*b)*dt
        return a, b

    @jit
    def numba_lerp2(v00, v10, v01, v11, vx, vy):
        co0 = v00 + (v10 - v00) * vx
        co1 = v01 + (v11 - v01) * vx
        co2 = co0 + (co1 - co0) * vy
        return co2
except:
    print("Tissue: Numba not installed")
    pass