from mpmath import * def test_sumem(): mp.dps = 15 assert sumem(lambda k: 1/k**2.5, [50, 100]).ae(0.0012524505324784962) assert sumem(lambda k: k**4 + 3*k + 1, [10, 100]).ae(2050333103) def test_nsum(): mp.dps = 15 assert nsum(lambda x: x**2, [1, 3]) == 14 assert nsum(lambda k: 1/factorial(k), [0, inf]).ae(e) assert nsum(lambda k: (-1)**(k+1) / k, [1, inf]).ae(log(2)) assert nsum(lambda k: (-1)**(k+1) / k**2, [1, inf]).ae(pi**2 / 12) assert nsum(lambda k: (-1)**k / log(k), [2, inf]).ae(0.9242998972229388) assert nsum(lambda k: 1/k**2, [1, inf]).ae(pi**2 / 6) assert nsum(lambda k: 2**k/fac(k), [0, inf]).ae(exp(2)) assert nsum(lambda k: 1/k**2, [4, inf], method='e').ae(0.2838229557371153) def test_nprod(): mp.dps = 15 assert nprod(lambda k: exp(1/k**2), [1,inf], method='r').ae(exp(pi**2/6)) assert nprod(lambda x: x**2, [1, 3]) == 36 def test_fsum(): mp.dps = 15 assert fsum([]) == 0 assert fsum([-4]) == -4 assert fsum([2,3]) == 5 assert fsum([1e-100,1]) == 1 assert fsum([1,1e-100]) == 1 assert fsum([1e100,1]) == 1e100 assert fsum([1,1e100]) == 1e100 assert fsum([1e-100,0]) == 1e-100 assert fsum([1e-100,1e100,1e-100]) == 1e100 assert fsum([2,1+1j,1]) == 4+1j assert fsum([2,inf,3]) == inf assert fsum([2,-1], absolute=1) == 3 assert fsum([2,-1], squared=1) == 5 assert fsum([1,1+j], squared=1) == 1+2j assert fsum([1,3+4j], absolute=1) == 6 assert fsum([1,2+3j], absolute=1, squared=1) == 14 assert isnan(fsum([inf,-inf])) assert fsum([inf,-inf], absolute=1) == inf assert fsum([inf,-inf], squared=1) == inf assert fsum([inf,-inf], absolute=1, squared=1) == inf assert iv.fsum([1,mpi(2,3)]) == mpi(3,4) def test_fprod(): mp.dps = 15 assert fprod([]) == 1 assert fprod([2,3]) == 6