from sympy.core import Ne, Rational, Symbol from sympy.functions import sin, cos, tan, csc, sec, cot, log, Piecewise from sympy.integrals.trigonometry import trigintegrate x = Symbol('x') def test_trigintegrate_odd(): assert trigintegrate(Rational(1), x) == x assert trigintegrate(x, x) is None assert trigintegrate(x**2, x) is None assert trigintegrate(sin(x), x) == -cos(x) assert trigintegrate(cos(x), x) == sin(x) assert trigintegrate(sin(3*x), x) == -cos(3*x)/3 assert trigintegrate(cos(3*x), x) == sin(3*x)/3 y = Symbol('y') assert trigintegrate(sin(y*x), x) == Piecewise( (-cos(y*x)/y, Ne(y, 0)), (0, True)) assert trigintegrate(cos(y*x), x) == Piecewise( (sin(y*x)/y, Ne(y, 0)), (x, True)) assert trigintegrate(sin(y*x)**2, x) == Piecewise( ((x*y/2 - sin(x*y)*cos(x*y)/2)/y, Ne(y, 0)), (0, True)) assert trigintegrate(sin(y*x)*cos(y*x), x) == Piecewise( (sin(x*y)**2/(2*y), Ne(y, 0)), (0, True)) assert trigintegrate(cos(y*x)**2, x) == Piecewise( ((x*y/2 + sin(x*y)*cos(x*y)/2)/y, Ne(y, 0)), (x, True)) y = Symbol('y', positive=True) # TODO: remove conds='none' below. For this to work we would have to rule # out (e.g. by trying solve) the condition y = 0, incompatible with # y.is_positive being True. assert trigintegrate(sin(y*x), x, conds='none') == -cos(y*x)/y assert trigintegrate(cos(y*x), x, conds='none') == sin(y*x)/y assert trigintegrate(sin(x)*cos(x), x) == sin(x)**2/2 assert trigintegrate(sin(x)*cos(x)**2, x) == -cos(x)**3/3 assert trigintegrate(sin(x)**2*cos(x), x) == sin(x)**3/3 # check if it selects right function to substitute, # so the result is kept simple assert trigintegrate(sin(x)**7 * cos(x), x) == sin(x)**8/8 assert trigintegrate(sin(x) * cos(x)**7, x) == -cos(x)**8/8 assert trigintegrate(sin(x)**7 * cos(x)**3, x) == \ -sin(x)**10/10 + sin(x)**8/8 assert trigintegrate(sin(x)**3 * cos(x)**7, x) == \ cos(x)**10/10 - cos(x)**8/8 # both n, m are odd and -ve, and not necessarily equal assert trigintegrate(sin(x)**-1*cos(x)**-1, x) == \ -log(sin(x)**2 - 1)/2 + log(sin(x)) def test_trigintegrate_even(): assert trigintegrate(sin(x)**2, x) == x/2 - cos(x)*sin(x)/2 assert trigintegrate(cos(x)**2, x) == x/2 + cos(x)*sin(x)/2 assert trigintegrate(sin(3*x)**2, x) == x/2 - cos(3*x)*sin(3*x)/6 assert trigintegrate(cos(3*x)**2, x) == x/2 + cos(3*x)*sin(3*x)/6 assert trigintegrate(sin(x)**2 * cos(x)**2, x) == \ x/8 - sin(2*x)*cos(2*x)/16 assert trigintegrate(sin(x)**4 * cos(x)**2, x) == \ x/16 - sin(x) *cos(x)/16 - sin(x)**3*cos(x)/24 + \ sin(x)**5*cos(x)/6 assert trigintegrate(sin(x)**2 * cos(x)**4, x) == \ x/16 + cos(x) *sin(x)/16 + cos(x)**3*sin(x)/24 - \ cos(x)**5*sin(x)/6 assert trigintegrate(sin(x)**(-4), x) == -2*cos(x)/(3*sin(x)) \ - cos(x)/(3*sin(x)**3) assert trigintegrate(cos(x)**(-6), x) == sin(x)/(5*cos(x)**5) \ + 4*sin(x)/(15*cos(x)**3) + 8*sin(x)/(15*cos(x)) def test_trigintegrate_mixed(): assert trigintegrate(sin(x)*sec(x), x) == -log(cos(x)) assert trigintegrate(sin(x)*csc(x), x) == x assert trigintegrate(sin(x)*cot(x), x) == sin(x) assert trigintegrate(cos(x)*sec(x), x) == x assert trigintegrate(cos(x)*csc(x), x) == log(sin(x)) assert trigintegrate(cos(x)*tan(x), x) == -cos(x) assert trigintegrate(cos(x)*cot(x), x) == log(cos(x) - 1)/2 \ - log(cos(x) + 1)/2 + cos(x) assert trigintegrate(cot(x)*cos(x)**2, x) == log(sin(x)) - sin(x)**2/2 def test_trigintegrate_symbolic(): n = Symbol('n', integer=True) assert trigintegrate(cos(x)**n, x) is None assert trigintegrate(sin(x)**n, x) is None assert trigintegrate(cot(x)**n, x) is None