move to 3xnnn arrays
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5951f2bdb1
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@ -29,9 +29,13 @@ def curl_h(dxes: dx_lists_t) -> functional_matrix:
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return (f - numpy.roll(f, 1, axis=ax)) / dxyz_b[ax]
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return (f - numpy.roll(f, 1, axis=ax)) / dxyz_b[ax]
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def ch_fun(h: field_t) -> field_t:
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def ch_fun(h: field_t) -> field_t:
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e = [dh(h[2], 1) - dh(h[1], 2),
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e = numpy.empty_like(h)
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dh(h[0], 2) - dh(h[2], 0),
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e[0] = dh(h[2], 1)
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dh(h[1], 0) - dh(h[0], 1)]
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e[0] -= dh(h[1], 2)
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e[1] = dh(h[0], 2)
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e[1] -= dh(h[2], 0)
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e[2] = dh(h[1], 0)
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e[2] -= dh(h[0], 1)
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return e
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return e
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return ch_fun
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return ch_fun
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@ -50,9 +54,13 @@ def curl_e(dxes: dx_lists_t) -> functional_matrix:
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return (numpy.roll(f, -1, axis=ax) - f) / dxyz_a[ax]
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return (numpy.roll(f, -1, axis=ax) - f) / dxyz_a[ax]
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def ce_fun(e: field_t) -> field_t:
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def ce_fun(e: field_t) -> field_t:
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h = [de(e[2], 1) - de(e[1], 2),
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h = numpy.empty_like(e)
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de(e[0], 2) - de(e[2], 0),
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h[0] = de(e[2], 1)
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de(e[1], 0) - de(e[0], 1)]
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h[0] -= de(e[1], 2)
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h[1] = de(e[0], 2)
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h[1] -= de(e[2], 0)
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h[2] = de(e[1], 0)
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h[2] -= de(e[0], 1)
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return h
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return h
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return ce_fun
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return ce_fun
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@ -79,11 +87,11 @@ def e_full(omega: complex,
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def op_1(e):
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def op_1(e):
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curls = ch(ce(e))
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curls = ch(ce(e))
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return [c - omega ** 2 * e * x for c, e, x in zip(curls, epsilon, e)]
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return curls - omega ** 2 * epsilon * e
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def op_mu(e):
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def op_mu(e):
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curls = ch([m * y for m, y in zip(mu, ce(e))])
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curls = ch(mu * ce(e))
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return [c - omega ** 2 * p * x for c, p, x in zip(curls, epsilon, e)]
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return curls - omega ** 2 * epsilon * e
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if numpy.any(numpy.equal(mu, None)):
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if numpy.any(numpy.equal(mu, None)):
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return op_1
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return op_1
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@ -109,12 +117,12 @@ def eh_full(omega: complex,
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ce = curl_e(dxes)
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ce = curl_e(dxes)
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def op_1(e, h):
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def op_1(e, h):
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return ([c - 1j * omega * p * x for c, p, x in zip(ch(h), epsilon, e)],
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return (ch(h) - 1j * omega * epsilon * e,
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[c + 1j * omega * y for c, y in zip(ce(e), h)])
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ce(e) + 1j * omega * h)
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def op_mu(e, h):
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def op_mu(e, h):
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return ([c - 1j * omega * p * x for c, p, x in zip(ch(h), epsilon, e)],
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return (ch(h) - 1j * omega * epsilon * e,
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[c + 1j * omega * m * y for c, m, y in zip(ce(e), mu, h)])
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ce(e) + 1j * omega * mu * h)
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if numpy.any(numpy.equal(mu, None)):
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if numpy.any(numpy.equal(mu, None)):
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return op_1
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return op_1
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@ -138,10 +146,10 @@ def e2h(omega: complex,
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A2 = curl_e(dxes)
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A2 = curl_e(dxes)
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def e2h_1_1(e):
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def e2h_1_1(e):
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return [y / (-1j * omega) for y in A2(e)]
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return A2(e) / (-1j * omega)
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def e2h_mu(e):
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def e2h_mu(e):
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return [y / (-1j * omega * m) for y, m in zip(A2(e), mu)]
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return A2(e) / (-1j * omega * mu)
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if numpy.any(numpy.equal(mu, None)):
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if numpy.any(numpy.equal(mu, None)):
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return e2h_1_1
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return e2h_1_1
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@ -166,12 +174,11 @@ def m2j(omega: complex,
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ch = curl_h(dxes)
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ch = curl_h(dxes)
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def m2j_mu(m):
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def m2j_mu(m):
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m_mu = [m[k] / mu[k] for k in range[3]]
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J = ch(m / mu) / (-1j * omega)
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J = [Ji / (-1j * omega) for Ji in ch(m_mu)]
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return J
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return J
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def m2j_1(m):
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def m2j_1(m):
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J = [Ji / (-1j * omega) for Ji in ch(m)]
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J = ch(m) / (-1j * omega)
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return J
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return J
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if numpy.any(numpy.equal(mu, None)):
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if numpy.any(numpy.equal(mu, None)):
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