diff --git a/wafo/tests/test_integrate_oscillating.py b/wafo/tests/test_integrate_oscillating.py index fc35206..00a939e 100644 --- a/wafo/tests/test_integrate_oscillating.py +++ b/wafo/tests/test_integrate_oscillating.py @@ -293,9 +293,9 @@ class LevinQuadrature(unittest.TestCase): self.assert_(info.error_estimate < 1e-8) def test_exp_zdcos2t_dcos2t_exp_jw_cos_t_b_dcos2t(self): - x1 = -20 - y1 = 20 - z1 = 20 + x1 = 20 + y1 = 50 + z1 = 10 beta = np.abs(np.arctan(y1/x1)) R = np.sqrt(x1**2+y1**2) @@ -351,7 +351,8 @@ class LevinQuadrature(unittest.TestCase): zdg = zeros_dg(beta) ab = (a, ) + zdg + (b, ) true_val, _err = mp.quadts(ftot, ab, maxdegree=9, error=True) - if False: + # true_val3, err3 = mp.quadgl(ftot, ab, maxdegree=9, error=True) + if True: import matplotlib.pyplot as plt t = np.linspace(a, b, 5*513) plt.subplot(2, 1, 1) @@ -376,15 +377,16 @@ class LevinQuadrature(unittest.TestCase): plt.show('hold') # true_val = 0.00253186684281+0.004314054498j # s = 15 - for quadfun in [QuadOsc, EvansWebster, AdaptiveLevin]: + for quadfun in [QuadOsc]: # , EvansWebster]: # , AdaptiveLevin]: # EvansWebster]: # , AdaptiveLevin, ]: quad = quadfun(f, g, dg, a, b, precision=10, endpoints=False, full_output=True) val, _info = quad(omega, beta, z1) # @UnusedVariable - # assert_allclose(val, complex(true_val), rtol=1e-3) + print(quadfun.__name__) + assert_allclose(val, complex(true_val), rtol=1e-3) # s = 1 if s<=1 else s//2 pass - assert(False) + # assert(False) if __name__ == "__main__":