def plot_init():
fig, (ax1, ax2) = plt.subplots(2)
ax1.set_aspect(aspect=1)
vis.lattice_grid(N,1,ax1)###
positions1_1, positions1_2, positions2_2, positions2_1= vis.lattice2positions(L1, L2,ax1)
return positions1_1, positions1_2, positions2_2, positions2_1,fig, ax1, ax2
def plot_init():
fig, ax = plt.subplots()
ax.set_aspect(aspect=1)
vis.lattice_grid(N, 2, ax) ###
positions1_1, positions1_2, positions2_2, positions2_1 = vis.lattice2positions(
L1, L2, ax)
return positions1_1, positions1_2, positions2_2, positions2_1, ax
while j < steps: #True:#
print("j: ", j)
fig, ax = plt.subplots()
ax.set_aspect(aspect=1)
#vis.lattice_grid(N,1,ax)#vis.lattice_grid(N,2,ax)
#site = int(input("ch: "))#rd.randint(0,2*N+2)
site = rd.randint(0, 2 * N + 2)
#print(site)
update_anim(site, ax)
#print(update_par(site, 1,1,1,1,1,1,1,1))
#print(stuck_position())
DisplayNice()
positions1_1, positions1_2, positions2_2, positions2_1 = vis.lattice2positions(
L1, L2, ax)
vis.lattice_points(positions1_1, 0, "b", ax)
vis.lattice_points(positions1_2, 0, "r", ax)
vis.lattice_points(N - 1 - positions2_2, 1, "r",
ax) #to flip it N-1-positions_vect
vis.lattice_points(N - 1 - positions2_1, 1, "b", ax)
plt.close('all')
#outpath = '../../img/visualiser/'
#plt.savefig(path.join(outpath,"%s-.png"%(j)))###
#j+=1###
'''
positions1_1, positions1_2, positions2_2, positions2_1 = vis.lattice2positions(L1, L2,ax)
vis.lattice_points(positions1_1, 0, "b", ax)
vis.lattice_points(positions1_2, 0, "r", ax)
vis.lattice_points(N-1-positions2_2, 1, "r", ax)#to flip it N-1-positions_vect
vis.lattice_points(N-1-positions2_1, 1, "b", ax)