def test_P():
assert P(0, z, m) == F(z, m)
assert P(1, z, m) == F(z, m) + \
(sqrt(1 - m*sin(z)**2)*tan(z) - E(z, m))/(1 - m)
assert P(n, i*pi/2, m) == i*P(n, m)
assert P(n, z, 0) == atanh(sqrt(n - 1)*tan(z))/sqrt(n - 1)
assert P(n, z, n) == F(z, n) - P(1, z, n) + tan(z)/sqrt(1 - n*sin(z)**2)
assert P(oo, z, m) == 0
assert P(-oo, z, m) == 0
assert P(n, z, oo) == 0
assert P(n, z, -oo) == 0
assert P(0, m) == K(m)
assert P(1, m) == zoo
assert P(n, 0) == pi/(2*sqrt(1 - n))
assert P(2, 1) == -oo
assert P(-1, 1) == oo
assert P(n, n) == E(n)/(1 - n)
assert P(oo, m) == 0
assert P(n, oo) == 0
assert P(n, -z, m) == -P(n, z, m)
ni, mi = Symbol('n', extended_real=False), Symbol('m', extended_real=False)
assert P(ni, z, mi).conjugate() == \
P(ni.conjugate(), z.conjugate(), mi.conjugate())
nr, mr = Symbol('n', extended_real=True, negative=True), \
Symbol('m', extended_real=True, negative=True)
assert P(nr, z, mr).conjugate() == P(nr, z.conjugate(), mr)
assert P(n, m).conjugate() == P(n.conjugate(), m.conjugate())
assert P(n, z, m).diff(n) == (E(z, m) + (m - n)*F(z, m)/n +
(n**2 - m)*P(n, z, m)/n - n*sqrt(1 -
m*sin(z)**2)*sin(2*z)/(2*(1 - n*sin(z)**2)))/(2*(m - n)*(n - 1))
assert P(n, z, m).diff(z) == 1/(sqrt(1 - m*sin(z)**2)*(1 - n*sin(z)**2))
assert P(n, z, m).diff(m) == (E(z, m)/(m - 1) + P(n, z, m) -
m*sin(2*z)/(2*(m - 1)*sqrt(1 - m*sin(z)**2)))/(2*(n - m))
assert P(n, m).diff(n) == (E(m) + (m - n)*K(m)/n +
(n**2 - m)*P(n, m)/n)/(2*(m - n)*(n - 1))
assert P(n, m).diff(m) == (E(m)/(m - 1) + P(n, m))/(2*(n - m))
rx, ry = randcplx(), randcplx()
assert td(P(n, rx, ry), n)
assert td(P(rx, z, ry), z)
assert td(P(rx, ry, m), m)
pytest.raises(ArgumentIndexError, lambda: P(n, z, m).fdiff(4))
pytest.raises(ArgumentIndexError, lambda: P(n, m).fdiff(3))
assert P(n, z, m).series(z) == z + z**3*(m/6 + n/3) + \
z**5*(3*m**2/40 + m*n/10 - m/30 + n**2/5 - n/15) + O(z**6)
def test_E():
assert E(z, 0) == z
assert E(0, m) == 0
assert E(i*pi/2, m) == i*E(m)
assert E(z, oo) == zoo
assert E(z, -oo) == zoo
assert E(0) == pi/2
assert E(1) == 1
assert E(oo) == I*oo
assert E(-oo) == oo
assert E(zoo) == zoo
assert E(-z, m) == -E(z, m)
assert E(z, m).diff(z) == sqrt(1 - m*sin(z)**2)
assert E(z, m).diff(m) == (E(z, m) - F(z, m))/(2*m)
assert E(z).diff(z) == (E(z) - K(z))/(2*z)
r = randcplx()
assert td(E(r, m), m)
assert td(E(z, r), z)
assert td(E(z), z)
pytest.raises(ArgumentIndexError, lambda: E(z, m).fdiff(3))
pytest.raises(ArgumentIndexError, lambda: E(z).fdiff(2))
mi = Symbol('m', extended_real=False)
assert E(z, mi).conjugate() == E(z.conjugate(), mi.conjugate())
assert E(mi).conjugate() == E(mi.conjugate())
mr = Symbol('m', extended_real=True, negative=True)
assert E(z, mr).conjugate() == E(z.conjugate(), mr)
assert E(mr).conjugate() == E(mr)
assert E(z).rewrite(hyper) == (pi/2)*hyper((-S.Half, S.Half), (S.One,), z)
assert E(z, m).rewrite(hyper) == E(z, m)
assert tn(E(z), (pi/2)*hyper((-S.Half, S.Half), (S.One,), z))
assert E(z).rewrite(meijerg) == \
-meijerg(((S.Half, Rational(3, 2)), []), ((S.Zero,), (S.Zero,)), -z)/4
assert E(z, m).rewrite(meijerg) == E(z, m)
assert tn(E(z), -meijerg(((S.Half, Rational(3, 2)), []), ((S.Zero,), (S.Zero,)), -z)/4)
assert E(z, m).series(z) == \
z + z**5*(-m**2/40 + m/30) - m*z**3/6 + O(z**6)
assert E(z).series(z) == pi/2 - pi*z/8 - 3*pi*z**2/128 - \
5*pi*z**3/512 - 175*pi*z**4/32768 - 441*pi*z**5/131072 + O(z**6)
def test_F():
assert F(z, 0) == z
assert F(0, m) == 0
assert F(pi*i/2, m) == i*K(m)
assert F(z, oo) == 0
assert F(z, -oo) == 0
assert F(-z, m) == -F(z, m)
assert F(z, m).diff(z) == 1/sqrt(1 - m*sin(z)**2)
assert F(z, m).diff(m) == E(z, m)/(2*m*(1 - m)) - F(z, m)/(2*m) - \
sin(2*z)/(4*(1 - m)*sqrt(1 - m*sin(z)**2))
r = randcplx()
assert td(F(z, r), z)
assert td(F(r, m), m)
mi = Symbol('m', extended_real=False)
assert F(z, mi).conjugate() == F(z.conjugate(), mi.conjugate())
mr = Symbol('m', extended_real=True, negative=True)
assert F(z, mr).conjugate() == F(z.conjugate(), mr)
assert F(z, m).series(z) == \
z + z**5*(3*m**2/40 - m/30) + m*z**3/6 + O(z**6)
def test_K():
assert K(0) == pi/2
assert K(Rational(1, 2)) == 8*pi**Rational(3, 2)/gamma(-Rational(1, 4))**2
assert K(1) == zoo
assert K(-1) == gamma(Rational(1, 4))**2/(4*sqrt(2*pi))
assert K(oo) == 0
assert K(-oo) == 0
assert K(I*oo) == 0
assert K(-I*oo) == 0
assert K(zoo) == 0
assert K(z).diff(z) == (E(z) - (1 - z)*K(z))/(2*z*(1 - z))
assert td(K(z), z)
pytest.raises(ArgumentIndexError, lambda: K(z).fdiff(2))
zi = Symbol('z', extended_real=False)
assert K(zi).conjugate() == K(zi.conjugate())
zr = Symbol('z', extended_real=True, negative=True)
assert K(zr).conjugate() == K(zr)
assert K(z).rewrite(hyper) == \
(pi/2)*hyper((S.Half, S.Half), (S.One,), z)
assert tn(K(z), (pi/2)*hyper((S.Half, S.Half), (S.One,), z))
assert K(z).rewrite(meijerg) == \
meijerg(((S.Half, S.Half), []), ((S.Zero,), (S.Zero,)), -z)/2
assert tn(K(z), meijerg(((S.Half, S.Half), []), ((S.Zero,), (S.Zero,)), -z)/2)
assert K(z).series(z) == pi/2 + pi*z/8 + 9*pi*z**2/128 + \
25*pi*z**3/512 + 1225*pi*z**4/32768 + 3969*pi*z**5/131072 + O(z**6)