def test_Max(): from sympy.abc import x, y, z n = Symbol('n', negative=True) n_ = Symbol('n_', negative=True) nn = Symbol('nn', nonnegative=True) nn_ = Symbol('nn_', nonnegative=True) p = Symbol('p', positive=True) p_ = Symbol('p_', positive=True) np = Symbol('np', nonpositive=True) np_ = Symbol('np_', nonpositive=True) r = Symbol('r', real=True) assert Max(5, 4) == 5 # lists raises(ValueError, lambda: Max()) assert Max(x, y) == Max(y, x) assert Max(x, y, z) == Max(z, y, x) assert Max(x, Max(y, z)) == Max(z, y, x) assert Max(x, Min(y, oo)) == Max(x, y) assert Max(n, -oo, n_, p, 2) == Max(p, 2) assert Max(n, -oo, n_, p) == p assert Max(2, x, p, n, -oo, S.NegativeInfinity, n_, p, 2) == Max(2, x, p) assert Max(0, x, 1, y) == Max(1, x, y) assert Max(r, r + 1, r - 1) == 1 + r assert Max(1000, 100, -100, x, p, n) == Max(p, x, 1000) assert Max(cos(x), sin(x)) == Max(sin(x), cos(x)) assert Max(cos(x), sin(x)).subs(x, 1) == sin(1) assert Max(cos(x), sin(x)).subs(x, S(1)/2) == cos(S(1)/2) raises(ValueError, lambda: Max(cos(x), sin(x)).subs(x, I)) raises(ValueError, lambda: Max(I)) raises(ValueError, lambda: Max(I, x)) raises(ValueError, lambda: Max(S.ComplexInfinity, 1)) # interesting: # Max(n, -oo, n_, p, 2) == Max(p, 2) # True # Max(n, -oo, n_, p, 1000) == Max(p, 1000) # False assert Max(1, x).diff(x) == Heaviside(x - 1) assert Max(x, 1).diff(x) == Heaviside(x - 1) assert Max(x**2, 1 + x, 1).diff(x) == \ 2*x*Heaviside(x**2 - Max(1, x + 1)) \ + Heaviside(x - Max(1, x**2) + 1) a, b = Symbol('a', real=True), Symbol('b', real=True) # a and b are both real, Max(a, b) should be real assert Max(a, b).is_real # issue 7233 e = Max(0, x) assert e.evalf == e.n assert e.n().args == (0, x)
def test_Max(): from sympy.abc import x, y, z n = Symbol('n', negative=True) n_ = Symbol('n_', negative=True) nn = Symbol('nn', nonnegative=True) nn_ = Symbol('nn_', nonnegative=True) p = Symbol('p', positive=True) p_ = Symbol('p_', positive=True) np = Symbol('np', nonpositive=True) np_ = Symbol('np_', nonpositive=True) r = Symbol('r', real=True) assert Max(5, 4) == 5 # lists raises(ValueError, lambda: Max()) assert Max(x, y) == Max(y, x) assert Max(x, y, z) == Max(z, y, x) assert Max(x, Max(y, z)) == Max(z, y, x) assert Max(x, Min(y, oo)) == Max(x, y) assert Max(n, -oo, n_, p, 2) == Max(p, 2) assert Max(n, -oo, n_, p) == p assert Max(2, x, p, n, -oo, S.NegativeInfinity, n_, p, 2) == Max(2, x, p) assert Max(0, x, 1, y) == Max(1, x, y) assert Max(r, r + 1, r - 1) == 1 + r assert Max(1000, 100, -100, x, p, n) == Max(p, x, 1000) assert Max(cos(x), sin(x)) == Max(sin(x), cos(x)) assert Max(cos(x), sin(x)).subs(x, 1) == sin(1) assert Max(cos(x), sin(x)).subs(x, S(1) / 2) == cos(S(1) / 2) raises(ValueError, lambda: Max(cos(x), sin(x)).subs(x, I)) raises(ValueError, lambda: Max(I)) raises(ValueError, lambda: Max(I, x)) raises(ValueError, lambda: Max(S.ComplexInfinity, 1)) assert Max(n, -oo, n_, p, 2) == Max(p, 2) assert Max(n, -oo, n_, p, 1000) == Max(p, 1000) assert Max(1, x).diff(x) == Heaviside(x - 1) assert Max(x, 1).diff(x) == Heaviside(x - 1) assert Max(x**2, 1 + x, 1).diff(x) == \ 2*x*Heaviside(x**2 - Max(1, x + 1)) \ + Heaviside(x - Max(1, x**2) + 1) e = Max(0, x) assert e.evalf == e.n assert e.n().args == (0, x) # issue 8643 m = Max(p, p_, n, r) assert m.is_positive is True assert m.is_nonnegative is True assert m.is_negative is False m = Max(n, n_) assert m.is_positive is False assert m.is_nonnegative is False assert m.is_negative is True m = Max(n, n_, r) assert m.is_positive is None assert m.is_nonnegative is None assert m.is_negative is None m = Max(n, nn, r) assert m.is_positive is None assert m.is_nonnegative is True assert m.is_negative is False
def test_Max(): from sympy.abc import x, y, z n = Symbol('n', negative=True) n_ = Symbol('n_', negative=True) nn = Symbol('nn', nonnegative=True) nn_ = Symbol('nn_', nonnegative=True) p = Symbol('p', positive=True) p_ = Symbol('p_', positive=True) np = Symbol('np', nonpositive=True) np_ = Symbol('np_', nonpositive=True) r = Symbol('r', real=True) assert Max(5, 4) == 5 # lists raises(ValueError, lambda: Max()) assert Max(x, y) == Max(y, x) assert Max(x, y, z) == Max(z, y, x) assert Max(x, Max(y, z)) == Max(z, y, x) assert Max(x, Min(y, oo)) == Max(x, y) assert Max(n, -oo, n_, p, 2) == Max(p, 2) assert Max(n, -oo, n_, p) == p assert Max(2, x, p, n, -oo, S.NegativeInfinity, n_, p, 2) == Max(2, x, p) assert Max(0, x, 1, y) == Max(1, x, y) assert Max(r, r + 1, r - 1) == 1 + r assert Max(1000, 100, -100, x, p, n) == Max(p, x, 1000) assert Max(cos(x), sin(x)) == Max(sin(x), cos(x)) assert Max(cos(x), sin(x)).subs(x, 1) == sin(1) assert Max(cos(x), sin(x)).subs(x, S(1)/2) == cos(S(1)/2) raises(ValueError, lambda: Max(cos(x), sin(x)).subs(x, I)) raises(ValueError, lambda: Max(I)) raises(ValueError, lambda: Max(I, x)) raises(ValueError, lambda: Max(S.ComplexInfinity, 1)) assert Max(n, -oo, n_, p, 2) == Max(p, 2) assert Max(n, -oo, n_, p, 1000) == Max(p, 1000) assert Max(1, x).diff(x) == Heaviside(x - 1) assert Max(x, 1).diff(x) == Heaviside(x - 1) assert Max(x**2, 1 + x, 1).diff(x) == \ 2*x*Heaviside(x**2 - Max(1, x + 1)) \ + Heaviside(x - Max(1, x**2) + 1) e = Max(0, x) assert e.evalf == e.n assert e.n().args == (0, x) # issue 8643 m = Max(p, p_, n, r) assert m.is_positive is True assert m.is_nonnegative is True assert m.is_negative is False m = Max(n, n_) assert m.is_positive is False assert m.is_nonnegative is False assert m.is_negative is True m = Max(n, n_, r) assert m.is_positive is None assert m.is_nonnegative is None assert m.is_negative is None m = Max(n, nn, r) assert m.is_positive is None assert m.is_nonnegative is True assert m.is_negative is False