Fixed some tests

master
pbrod 9 years ago
parent 7cc503f0ba
commit ead204e4fd

@ -266,7 +266,7 @@ class QuadOsc(object):
# Successive bisection of intervals # Successive bisection of intervals
nq = len(xq) nq = len(xq)
n = nq n = nq
for k in xrange(1, max_iter): for k in range(1, max_iter):
n += nq*2**k n += nq*2**k
hh = hh / 2 hh = hh / 2

@ -351,7 +351,7 @@ class LevinQuadrature(unittest.TestCase):
zdg = zeros_dg(beta) zdg = zeros_dg(beta)
ab = (a, ) + zdg + (b, ) ab = (a, ) + zdg + (b, )
true_val, _err = mp.quadts(ftot, ab, maxdegree=9, error=True) true_val, _err = mp.quadts(ftot, ab, maxdegree=9, error=True)
if False:
import matplotlib.pyplot as plt import matplotlib.pyplot as plt
t = np.linspace(a, b, 5*513) t = np.linspace(a, b, 5*513)
plt.subplot(2, 1, 1) plt.subplot(2, 1, 1)

@ -58,8 +58,8 @@ def test1_TKDE1D():
array([ 1.03982714, 0.45839018, 0.39514782, 0.32860602, 0.26433318, array([ 1.03982714, 0.45839018, 0.39514782, 0.32860602, 0.26433318,
0.20717946, 0.15907684, 0.1201074 , 0.08941027, 0.06574882]) 0.20717946, 0.15907684, 0.1201074 , 0.08941027, 0.06574882])
>>> np.trapz(f, x) >>> np.allclose(np.trapz(f, x), 0.94787730659349068)
0.94787730659349068 True
h1 = plb.plot(x, f) # 1D probability density plot h1 = plb.plot(x, f) # 1D probability density plot
''' '''
@ -78,12 +78,12 @@ def test1_KDE1D():
>>> x = np.linspace(0, max(data.ravel()) + 1, 10) >>> x = np.linspace(0, max(data.ravel()) + 1, 10)
>>> kde = wk.KDE(data, hs=0.5) >>> kde = wk.KDE(data, hs=0.5)
>>> f = kde(x) >>> f = kde(x)
>>> f >>> np.allclose(f, [ 0.2039735 , 0.40252503, 0.54595078, 0.52219649,
array([ 0.2039735 , 0.40252503, 0.54595078, 0.52219649, 0.3906213 , ... 0.3906213, 0.26381501, 0.16407362, 0.08270612, 0.02991145,
0.26381501, 0.16407362, 0.08270612, 0.02991145, 0.00720821]) ... 0.00720821])
True
>>> np.trapz(f, x) >>> np.allclose(np.trapz(f, x), 0.92576174424281876)
0.92576174424281876 True
h1 = plb.plot(x, f) # 1D probability density plot h1 = plb.plot(x, f) # 1D probability density plot
''' '''
@ -103,12 +103,12 @@ def test2_KDE1D():
>>> x = np.linspace(0, max(data.ravel()) + 1, 10) >>> x = np.linspace(0, max(data.ravel()) + 1, 10)
>>> kde = wk.KDE(data, hs=0.5) >>> kde = wk.KDE(data, hs=0.5)
>>> f = kde(x) >>> f = kde(x)
>>> f >>> np.allclose(f,
array([ 0.0541248 , 0.16555235, 0.33084399, 0.45293325, 0.48345808, ... [ 0.0541248 , 0.16555235, 0.33084399, 0.45293325, 0.48345808,
0.48345808, 0.45293325, 0.33084399, 0.16555235, 0.0541248 ]) ... 0.48345808, 0.45293325, 0.33084399, 0.16555235, 0.0541248 ])
True
>>> np.trapz(f, x) >>> np.allclose(np.trapz(f, x), 0.97323338046725172)
0.97323338046725172 True
h1 = plb.plot(x, f) # 1D probability density plot h1 = plb.plot(x, f) # 1D probability density plot
''' '''
@ -127,12 +127,12 @@ def test1a_KDE1D():
>>> x = np.linspace(0, max(data.ravel()) + 1, 10) >>> x = np.linspace(0, max(data.ravel()) + 1, 10)
>>> kde = wk.KDE(data, hs=0.5, alpha=0.5) >>> kde = wk.KDE(data, hs=0.5, alpha=0.5)
>>> f = kde(x) >>> f = kde(x)
>>> f >>> np.allclose(f,
array([ 0.17252055, 0.41014271, 0.61349072, 0.57023834, 0.37198073, ... [ 0.17252055, 0.41014271, 0.61349072, 0.57023834, 0.37198073,
0.21409279, 0.12738463, 0.07460326, 0.03956191, 0.01887164]) ... 0.21409279, 0.12738463, 0.07460326, 0.03956191, 0.01887164])
True
>>> np.trapz(f, x) >>> np.allclose(np.trapz(f, x), 0.92938023659047952)
0.92938023659047952 True
h1 = plb.plot(x, f) # 1D probability density plot h1 = plb.plot(x, f) # 1D probability density plot
''' '''
@ -152,12 +152,12 @@ def test2a_KDE1D():
>>> x = np.linspace(0, max(data.ravel()) + 1, 10) >>> x = np.linspace(0, max(data.ravel()) + 1, 10)
>>> kde = wk.KDE(data, hs=0.5, alpha=0.5) >>> kde = wk.KDE(data, hs=0.5, alpha=0.5)
>>> f = kde(x) >>> f = kde(x)
>>> f >>> np.allclose(f,
array([ 0.0541248 , 0.16555235, 0.33084399, 0.45293325, 0.48345808, ... [ 0.0541248 , 0.16555235, 0.33084399, 0.45293325, 0.48345808,
0.48345808, 0.45293325, 0.33084399, 0.16555235, 0.0541248 ]) ... 0.48345808, 0.45293325, 0.33084399, 0.16555235, 0.0541248 ])
True
>>> np.trapz(f, x) >>> np.allclose(np.trapz(f, x), 0.97323338046725172)
0.97323338046725172 True
h1 = plb.plot(x, f) # 1D probability density plot h1 = plb.plot(x, f) # 1D probability density plot
''' '''
@ -183,15 +183,16 @@ def test_KDE2D():
>>> kde0 = wk.KDE(data, hs=0.5, alpha=0.0, inc=16) >>> kde0 = wk.KDE(data, hs=0.5, alpha=0.0, inc=16)
>>> kde0.eval_grid(x, x) >>> np.allclose(kde0.eval_grid(x, x),
array([[ 3.27260963e-02, 4.21654678e-02, 5.85338634e-04], ... [[ 3.27260963e-02, 4.21654678e-02, 5.85338634e-04],
[ 6.78845466e-02, 1.42195839e-01, 1.41676003e-03], ... [ 6.78845466e-02, 1.42195839e-01, 1.41676003e-03],
[ 1.39466746e-04, 4.26983850e-03, 2.52736185e-05]]) ... [ 1.39466746e-04, 4.26983850e-03, 2.52736185e-05]])
>>> kde0.eval_grid_fast(x, x) True
array([[ 0.04435061, 0.06433531, 0.00413538], >>> np.allclose(kde0.eval_grid_fast(x, x),
[ 0.07218297, 0.12358196, 0.00928889], ... [[ 0.04435061, 0.06433531, 0.00413538],
[ 0.00161333, 0.00794858, 0.00058748]]) ... [ 0.07218297, 0.12358196, 0.00928889],
... [ 0.00161333, 0.00794858, 0.00058748]])
True
''' '''
@ -251,9 +252,10 @@ def test_gridcount_1D():
>>> x = np.linspace(0, max(data.ravel()) + 1, 10) >>> x = np.linspace(0, max(data.ravel()) + 1, 10)
>>> dx = x[1] - x[0] >>> dx = x[1] - x[0]
>>> c = wk.gridcount(data, x) >>> c = wk.gridcount(data, x)
>>> c >>> np.allclose(c,
array([ 0.78762626, 1.77520717, 7.99190087, 4.04054449, 1.67156643, ... [ 0.78762626, 1.77520717, 7.99190087, 4.04054449, 1.67156643,
2.38228499, 1.05933195, 0.29153785, 0. , 0. ]) ... 2.38228499, 1.05933195, 0.29153785, 0. , 0. ])
True
h = plb.plot(x, c, '.') # 1D histogram h = plb.plot(x, c, '.') # 1D histogram
@ -281,12 +283,13 @@ def test_gridcount_2D():
>>> dx = x[1] - x[0] >>> dx = x[1] - x[0]
>>> X = np.vstack((x, x)) >>> X = np.vstack((x, x))
>>> c = wk.gridcount(data, X) >>> c = wk.gridcount(data, X)
>>> c >>> np.allclose(c,
array([[ 0.38922806, 0.8987982 , 0.34676493, 0.21042807, 0. ], ... [[ 0.38922806, 0.8987982 , 0.34676493, 0.21042807, 0. ],
[ 1.15012203, 5.16513541, 3.19250588, 0.55420752, 0. ], ... [ 1.15012203, 5.16513541, 3.19250588, 0.55420752, 0. ],
[ 0.74293418, 3.42517219, 1.97923195, 0.76076621, 0. ], ... [ 0.74293418, 3.42517219, 1.97923195, 0.76076621, 0. ],
[ 0.02063536, 0.31054405, 0.71865964, 0.13486633, 0. ], ... [ 0.02063536, 0.31054405, 0.71865964, 0.13486633, 0. ],
[ 0. , 0. , 0. , 0. , 0. ]]) ... [ 0. , 0. , 0. , 0. , 0. ]])
True
h = plb.plot(x, c, '.') # 1D histogram h = plb.plot(x, c, '.') # 1D histogram
@ -318,19 +321,17 @@ def test_gridcount_3D():
>>> dx = x[1] - x[0] >>> dx = x[1] - x[0]
>>> X = np.vstack((x, x, x)) >>> X = np.vstack((x, x, x))
>>> c = wk.gridcount(data, X) >>> c = wk.gridcount(data, X)
>>> c >>> np.allclose(c,
array([[[ 8.74229894e-01, 1.27910940e+00, 1.42033973e-01], ... [[[ 8.74229894e-01, 1.27910940e+00, 1.42033973e-01],
[ 1.94778915e+00, 2.59536282e+00, 3.28213680e-01], ... [ 1.94778915e+00, 2.59536282e+00, 3.28213680e-01],
[ 1.08429416e-01, 1.69571495e-01, 7.48896775e-03]], ... [ 1.08429416e-01, 1.69571495e-01, 7.48896775e-03]],
<BLANKLINE> ... [[ 1.44969128e+00, 2.58396370e+00, 2.45459949e-01],
[[ 1.44969128e+00, 2.58396370e+00, 2.45459949e-01], ... [ 2.28951650e+00, 4.49653348e+00, 2.73167915e-01],
[ 2.28951650e+00, 4.49653348e+00, 2.73167915e-01], ... [ 1.10905565e-01, 3.18733817e-01, 1.12880816e-02]],
[ 1.10905565e-01, 3.18733817e-01, 1.12880816e-02]], ... [[ 7.49265424e-02, 2.18142488e-01, 0.00000000e+00],
<BLANKLINE> ... [ 8.53886762e-02, 3.73415131e-01, 0.00000000e+00],
[[ 7.49265424e-02, 2.18142488e-01, 0.00000000e+00], ... [ 4.16196568e-04, 1.62218824e-02, 0.00000000e+00]]])
[ 8.53886762e-02, 3.73415131e-01, 0.00000000e+00], True
[ 4.16196568e-04, 1.62218824e-02, 0.00000000e+00]]])
''' '''
@ -352,44 +353,35 @@ def test_gridcount_4D():
>>> dx = x[1] - x[0] >>> dx = x[1] - x[0]
>>> X = np.vstack((x, x, x, x)) >>> X = np.vstack((x, x, x, x))
>>> c = wk.gridcount(data, X) >>> c = wk.gridcount(data, X)
>>> c >>> np.allclose(c,
array([[[[ 1.77163904e-01, 1.87720108e-01, 0.00000000e+00], ... [[[[ 1.77163904e-01, 1.87720108e-01, 0.00000000e+00],
[ 5.72573585e-01, 6.09557834e-01, 0.00000000e+00], ... [ 5.72573585e-01, 6.09557834e-01, 0.00000000e+00],
[ 3.48549923e-03, 4.05931870e-02, 0.00000000e+00]], ... [ 3.48549923e-03, 4.05931870e-02, 0.00000000e+00]],
<BLANKLINE> ... [[ 1.83770124e-01, 2.56357594e-01, 0.00000000e+00],
[[ 1.83770124e-01, 2.56357594e-01, 0.00000000e+00], ... [ 4.35845892e-01, 6.14958970e-01, 0.00000000e+00],
[ 4.35845892e-01, 6.14958970e-01, 0.00000000e+00], ... [ 3.07662204e-03, 3.58312786e-02, 0.00000000e+00]],
[ 3.07662204e-03, 3.58312786e-02, 0.00000000e+00]], ... [[ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00],
<BLANKLINE> ... [ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00],
[[ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00], ... [ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00]]],
[ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00], ... [[[ 3.41883175e-01, 5.97977973e-01, 0.00000000e+00],
[ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00]]], ... [ 5.72071865e-01, 8.58566538e-01, 0.00000000e+00],
<BLANKLINE> ... [ 3.46939323e-03, 4.04056116e-02, 0.00000000e+00]],
<BLANKLINE> ... [[ 3.58861043e-01, 6.28962785e-01, 0.00000000e+00],
[[[ 3.41883175e-01, 5.97977973e-01, 0.00000000e+00], ... [ 8.80697705e-01, 1.47373158e+00, 0.00000000e+00],
[ 5.72071865e-01, 8.58566538e-01, 0.00000000e+00], ... [ 2.22868504e-01, 1.18008528e-01, 0.00000000e+00]],
[ 3.46939323e-03, 4.04056116e-02, 0.00000000e+00]], ... [[ 2.91835067e-03, 2.60268355e-02, 0.00000000e+00],
<BLANKLINE> ... [ 3.63686503e-02, 1.07959459e-01, 0.00000000e+00],
[[ 3.58861043e-01, 6.28962785e-01, 0.00000000e+00], ... [ 1.88555613e-02, 7.06358976e-03, 0.00000000e+00]]],
[ 8.80697705e-01, 1.47373158e+00, 0.00000000e+00], ... [[[ 3.13810608e-03, 2.11731327e-02, 0.00000000e+00],
[ 2.22868504e-01, 1.18008528e-01, 0.00000000e+00]], ... [ 6.71606255e-03, 4.53139824e-02, 0.00000000e+00],
<BLANKLINE> ... [ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00]],
[[ 2.91835067e-03, 2.60268355e-02, 0.00000000e+00], ... [[ 7.05946179e-03, 5.44614852e-02, 0.00000000e+00],
[ 3.63686503e-02, 1.07959459e-01, 0.00000000e+00], ... [ 1.09099593e-01, 1.95935584e-01, 0.00000000e+00],
[ 1.88555613e-02, 7.06358976e-03, 0.00000000e+00]]], ... [ 6.61257395e-02, 2.47717418e-02, 0.00000000e+00]],
<BLANKLINE> ... [[ 6.38695629e-04, 5.69610302e-03, 0.00000000e+00],
<BLANKLINE> ... [ 1.00358265e-02, 2.44053065e-02, 0.00000000e+00],
[[[ 3.13810608e-03, 2.11731327e-02, 0.00000000e+00], ... [ 5.67244468e-03, 2.12498697e-03, 0.00000000e+00]]]])
[ 6.71606255e-03, 4.53139824e-02, 0.00000000e+00], True
[ 0.00000000e+00, 0.00000000e+00, 0.00000000e+00]],
<BLANKLINE>
[[ 7.05946179e-03, 5.44614852e-02, 0.00000000e+00],
[ 1.09099593e-01, 1.95935584e-01, 0.00000000e+00],
[ 6.61257395e-02, 2.47717418e-02, 0.00000000e+00]],
<BLANKLINE>
[[ 6.38695629e-04, 5.69610302e-03, 0.00000000e+00],
[ 1.00358265e-02, 2.44053065e-02, 0.00000000e+00],
[ 5.67244468e-03, 2.12498697e-03, 0.00000000e+00]]]])
h = plb.plot(x, c, '.') # 1D histogram h = plb.plot(x, c, '.') # 1D histogram

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