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import sys
from numpy.testing import *
set_package_path()
import numpy.lib;reload(numpy.lib)
from numpy.lib import *
from numpy.core import *
del sys.path[0]
class TestAny(NumpyTestCase):
def check_basic(self):
y1 = [0,0,1,0]
y2 = [0,0,0,0]
y3 = [1,0,1,0]
assert(any(y1))
assert(any(y3))
assert(not any(y2))
def check_nd(self):
y1 = [[0,0,0],[0,1,0],[1,1,0]]
assert(any(y1))
assert_array_equal(sometrue(y1,axis=0),[1,1,0])
assert_array_equal(sometrue(y1,axis=1),[0,1,1])
class TestAll(NumpyTestCase):
def check_basic(self):
y1 = [0,1,1,0]
y2 = [0,0,0,0]
y3 = [1,1,1,1]
assert(not all(y1))
assert(all(y3))
assert(not all(y2))
assert(all(~array(y2)))
def check_nd(self):
y1 = [[0,0,1],[0,1,1],[1,1,1]]
assert(not all(y1))
assert_array_equal(alltrue(y1,axis=0),[0,0,1])
assert_array_equal(alltrue(y1,axis=1),[0,0,1])
class TestAverage(NumpyTestCase):
def check_basic(self):
y1 = array([1,2,3])
assert(average(y1,axis=0) == 2.)
y2 = array([1.,2.,3.])
assert(average(y2,axis=0) == 2.)
y3 = [0.,0.,0.]
assert(average(y3,axis=0) == 0.)
y4 = ones((4,4))
y4[0,1] = 0
y4[1,0] = 2
assert_array_equal(y4.mean(0), average(y4, 0))
assert_array_equal(y4.mean(1), average(y4, 1))
y5 = rand(5,5)
assert_array_equal(y5.mean(0), average(y5, 0))
assert_array_equal(y5.mean(1), average(y5, 1))
def check_weighted(self):
y1 = array([[1,2,3],
[4,5,6]])
actual = average(y1,weights=[1,2],axis=0)
desired = array([3.,4.,5.])
assert_array_equal(actual, desired)
class TestSelect(NumpyTestCase):
def _select(self,cond,values,default=0):
output = []
for m in range(len(cond)):
output += [V[m] for V,C in zip(values,cond) if C[m]] or [default]
return output
def check_basic(self):
choices = [array([1,2,3]),
array([4,5,6]),
array([7,8,9])]
conditions = [array([0,0,0]),
array([0,1,0]),
array([0,0,1])]
assert_array_equal(select(conditions,choices,default=15),
self._select(conditions,choices,default=15))
assert_equal(len(choices),3)
assert_equal(len(conditions),3)
class TestLogspace(NumpyTestCase):
def check_basic(self):
y = logspace(0,6)
assert(len(y)==50)
y = logspace(0,6,num=100)
assert(y[-1] == 10**6)
y = logspace(0,6,endpoint=0)
assert(y[-1] < 10**6)
y = logspace(0,6,num=7)
assert_array_equal(y,[1,10,100,1e3,1e4,1e5,1e6])
class TestLinspace(NumpyTestCase):
def check_basic(self):
y = linspace(0,10)
assert(len(y)==50)
y = linspace(2,10,num=100)
assert(y[-1] == 10)
y = linspace(2,10,endpoint=0)
assert(y[-1] < 10)
y,st = linspace(2,10,retstep=1)
assert_almost_equal(st,8/49.0)
assert_array_almost_equal(y,mgrid[2:10:50j],13)
def check_corner(self):
y = list(linspace(0,1,1))
assert y == [0.0], y
y = list(linspace(0,1,2.5))
assert y == [0.0, 1.0]
def check_type(self):
t1 = linspace(0,1,0).dtype
t2 = linspace(0,1,1).dtype
t3 = linspace(0,1,2).dtype
assert_equal(t1, t2)
assert_equal(t2, t3)
class TestInsert(NumpyTestCase):
def check_basic(self):
a = [1,2,3]
assert_equal(insert(a,0,1), [1,1,2,3])
assert_equal(insert(a,3,1), [1,2,3,1])
assert_equal(insert(a,[1,1,1],[1,2,3]), [1,1,2,3,2,3])
class TestAmax(NumpyTestCase):
def check_basic(self):
a = [3,4,5,10,-3,-5,6.0]
assert_equal(amax(a),10.0)
b = [[3,6.0, 9.0],
[4,10.0,5.0],
[8,3.0,2.0]]
assert_equal(amax(b,axis=0),[8.0,10.0,9.0])
assert_equal(amax(b,axis=1),[9.0,10.0,8.0])
class TestAmin(NumpyTestCase):
def check_basic(self):
a = [3,4,5,10,-3,-5,6.0]
assert_equal(amin(a),-5.0)
b = [[3,6.0, 9.0],
[4,10.0,5.0],
[8,3.0,2.0]]
assert_equal(amin(b,axis=0),[3.0,3.0,2.0])
assert_equal(amin(b,axis=1),[3.0,4.0,2.0])
class TestPtp(NumpyTestCase):
def check_basic(self):
a = [3,4,5,10,-3,-5,6.0]
assert_equal(ptp(a,axis=0),15.0)
b = [[3,6.0, 9.0],
[4,10.0,5.0],
[8,3.0,2.0]]
assert_equal(ptp(b,axis=0),[5.0,7.0,7.0])
assert_equal(ptp(b,axis=-1),[6.0,6.0,6.0])
class TestCumsum(NumpyTestCase):
def check_basic(self):
ba = [1,2,10,11,6,5,4]
ba2 = [[1,2,3,4],[5,6,7,9],[10,3,4,5]]
for ctype in [int8,uint8,int16,uint16,int32,uint32,
float32,float64,complex64,complex128]:
a = array(ba,ctype)
a2 = array(ba2,ctype)
assert_array_equal(cumsum(a,axis=0), array([1,3,13,24,30,35,39],ctype))
assert_array_equal(cumsum(a2,axis=0), array([[1,2,3,4],[6,8,10,13],
[16,11,14,18]],ctype))
assert_array_equal(cumsum(a2,axis=1),
array([[1,3,6,10],
[5,11,18,27],
[10,13,17,22]],ctype))
class TestProd(NumpyTestCase):
def check_basic(self):
ba = [1,2,10,11,6,5,4]
ba2 = [[1,2,3,4],[5,6,7,9],[10,3,4,5]]
for ctype in [int16,uint16,int32,uint32,
float32,float64,complex64,complex128]:
a = array(ba,ctype)
a2 = array(ba2,ctype)
if ctype in ['1', 'b']:
self.failUnlessRaises(ArithmeticError, prod, a)
self.failUnlessRaises(ArithmeticError, prod, a2, 1)
self.failUnlessRaises(ArithmeticError, prod, a)
else:
assert_equal(prod(a,axis=0),26400)
assert_array_equal(prod(a2,axis=0),
array([50,36,84,180],ctype))
assert_array_equal(prod(a2,axis=-1),array([24, 1890, 600],ctype))
class TestCumprod(NumpyTestCase):
def check_basic(self):
ba = [1,2,10,11,6,5,4]
ba2 = [[1,2,3,4],[5,6,7,9],[10,3,4,5]]
for ctype in [int16,uint16,int32,uint32,
float32,float64,complex64,complex128]:
a = array(ba,ctype)
a2 = array(ba2,ctype)
if ctype in ['1', 'b']:
self.failUnlessRaises(ArithmeticError, cumprod, a)
self.failUnlessRaises(ArithmeticError, cumprod, a2, 1)
self.failUnlessRaises(ArithmeticError, cumprod, a)
else:
assert_array_equal(cumprod(a,axis=-1),
array([1, 2, 20, 220,
1320, 6600, 26400],ctype))
assert_array_equal(cumprod(a2,axis=0),
array([[ 1, 2, 3, 4],
[ 5, 12, 21, 36],
[50, 36, 84, 180]],ctype))
assert_array_equal(cumprod(a2,axis=-1),
array([[ 1, 2, 6, 24],
[ 5, 30, 210, 1890],
[10, 30, 120, 600]],ctype))
class TestDiff(NumpyTestCase):
def check_basic(self):
x = [1,4,6,7,12]
out = array([3,2,1,5])
out2 = array([-1,-1,4])
out3 = array([0,5])
assert_array_equal(diff(x),out)
assert_array_equal(diff(x,n=2),out2)
assert_array_equal(diff(x,n=3),out3)
def check_nd(self):
x = 20*rand(10,20,30)
out1 = x[:,:,1:] - x[:,:,:-1]
out2 = out1[:,:,1:] - out1[:,:,:-1]
out3 = x[1:,:,:] - x[:-1,:,:]
out4 = out3[1:,:,:] - out3[:-1,:,:]
assert_array_equal(diff(x),out1)
assert_array_equal(diff(x,n=2),out2)
assert_array_equal(diff(x,axis=0),out3)
assert_array_equal(diff(x,n=2,axis=0),out4)
class TestAngle(NumpyTestCase):
def check_basic(self):
x = [1+3j,sqrt(2)/2.0+1j*sqrt(2)/2,1,1j,-1,-1j,1-3j,-1+3j]
y = angle(x)
yo = [arctan(3.0/1.0),arctan(1.0),0,pi/2,pi,-pi/2.0,
-arctan(3.0/1.0),pi-arctan(3.0/1.0)]
z = angle(x,deg=1)
zo = array(yo)*180/pi
assert_array_almost_equal(y,yo,11)
assert_array_almost_equal(z,zo,11)
class TestTrimZeros(NumpyTestCase):
""" only testing for integer splits.
"""
def check_basic(self):
a= array([0,0,1,2,3,4,0])
res = trim_zeros(a)
assert_array_equal(res,array([1,2,3,4]))
def check_leading_skip(self):
a= array([0,0,1,0,2,3,4,0])
res = trim_zeros(a)
assert_array_equal(res,array([1,0,2,3,4]))
def check_trailing_skip(self):
a= array([0,0,1,0,2,3,0,4,0])
res = trim_zeros(a)
assert_array_equal(res,array([1,0,2,3,0,4]))
class TestExtins(NumpyTestCase):
def check_basic(self):
a = array([1,3,2,1,2,3,3])
b = extract(a>1,a)
assert_array_equal(b,[3,2,2,3,3])
def check_place(self):
a = array([1,4,3,2,5,8,7])
place(a,[0,1,0,1,0,1,0],[2,4,6])
assert_array_equal(a,[1,2,3,4,5,6,7])
def check_both(self):
a = rand(10)
mask = a > 0.5
ac = a.copy()
c = extract(mask, a)
place(a,mask,0)
place(a,mask,c)
assert_array_equal(a,ac)
class TestVectorize(NumpyTestCase):
def check_simple(self):
def addsubtract(a,b):
if a > b:
return a - b
else:
return a + b
f = vectorize(addsubtract)
r = f([0,3,6,9],[1,3,5,7])
assert_array_equal(r,[1,6,1,2])
def check_scalar(self):
def addsubtract(a,b):
if a > b:
return a - b
else:
return a + b
f = vectorize(addsubtract)
r = f([0,3,6,9],5)
assert_array_equal(r,[5,8,1,4])
def check_large(self):
x = linspace(-3,2,10000)
f = vectorize(lambda x: x)
y = f(x)
assert_array_equal(y, x)
class TestDigitize(NumpyTestCase):
def check_forward(self):
x = arange(-6,5)
bins = arange(-5,5)
assert_array_equal(digitize(x,bins),arange(11))
def check_reverse(self):
x = arange(5,-6,-1)
bins = arange(5,-5,-1)
assert_array_equal(digitize(x,bins),arange(11))
def check_random(self):
x = rand(10)
bin = linspace(x.min(), x.max(), 10)
assert all(digitize(x,bin) != 0)
class TestUnwrap(NumpyTestCase):
def check_simple(self):
#check that unwrap removes jumps greather that 2*pi
assert_array_equal(unwrap([1,1+2*pi]),[1,1])
#check that unwrap maintans continuity
assert(all(diff(unwrap(rand(10)*100))<pi))
class TestFilterwindows(NumpyTestCase):
def check_hanning(self):
#check symmetry
w=hanning(10)
assert_array_almost_equal(w,flipud(w),7)
#check known value
assert_almost_equal(sum(w,axis=0),4.500,4)
def check_hamming(self):
#check symmetry
w=hamming(10)
assert_array_almost_equal(w,flipud(w),7)
#check known value
assert_almost_equal(sum(w,axis=0),4.9400,4)
def check_bartlett(self):
#check symmetry
w=bartlett(10)
assert_array_almost_equal(w,flipud(w),7)
#check known value
assert_almost_equal(sum(w,axis=0),4.4444,4)
def check_blackman(self):
#check symmetry
w=blackman(10)
assert_array_almost_equal(w,flipud(w),7)
#check known value
assert_almost_equal(sum(w,axis=0),3.7800,4)
class TestTrapz(NumpyTestCase):
def check_simple(self):
r=trapz(exp(-1.0/2*(arange(-10,10,.1))**2)/sqrt(2*pi),dx=0.1)
#check integral of normal equals 1
assert_almost_equal(sum(r,axis=0),1,7)
class TestSinc(NumpyTestCase):
def check_simple(self):
assert(sinc(0)==1)
w=sinc(linspace(-1,1,100))
#check symmetry
assert_array_almost_equal(w,flipud(w),7)
class TestHistogram(NumpyTestCase):
def check_simple(self):
n=100
v=rand(n)
(a,b)=histogram(v)
#check if the sum of the bins equals the number of samples
assert(sum(a,axis=0)==n)
#check that the bin counts are evenly spaced when the data is from a linear function
(a,b)=histogram(linspace(0,10,100))
assert(all(a==10))
class TestHistogramdd(NumpyTestCase):
def check_simple(self):
x = array([[-.5, .5, 1.5], [-.5, 1.5, 2.5], [-.5, 2.5, .5], \
[.5, .5, 1.5], [.5, 1.5, 2.5], [.5, 2.5, 2.5]])
H, edges = histogramdd(x, (2,3,3), range = [[-1,1], [0,3], [0,3]])
answer = asarray([[[0,1,0], [0,0,1], [1,0,0]], [[0,1,0], [0,0,1], [0,0,1]]])
assert_array_equal(H,answer)
# Check normalization
ed = [[-2,0,2], [0,1,2,3], [0,1,2,3]]
H, edges = histogramdd(x, bins = ed, normed = True)
assert(all(H == answer/12.))
# Check that H has the correct shape.
H, edges = histogramdd(x, (2,3,4), range = [[-1,1], [0,3], [0,4]], normed=True)
answer = asarray([[[0,1,0,0], [0,0,1,0], [1,0,0,0]], [[0,1,0,0], [0,0,1,0], [0,0,1,0]]])
assert_array_almost_equal(H, answer/6., 4)
# Check that a sequence of arrays is accepted and H has the correct shape.
z = [squeeze(y) for y in split(x,3,axis=1)]
H, edges = histogramdd(z, bins=(4,3,2),range=[[-2,2], [0,3], [0,2]])
answer = asarray([[[0,0],[0,0],[0,0]],
[[0,1], [0,0], [1,0]],
[[0,1], [0,0],[0,0]],
[[0,0],[0,0],[0,0]]])
assert_array_equal(H, answer)
Z = zeros((5,5,5))
Z[range(5), range(5), range(5)] = 1.
H,edges = histogramdd([arange(5), arange(5), arange(5)], 5)
assert_array_equal(H, Z)
def check_shape(self):
x = rand(100,3)
hist3d, edges = histogramdd(x, bins = (5, 7, 6))
assert_array_equal(hist3d.shape, (5,7,6))
def check_weights(self):
v = rand(100,2)
hist, edges = histogramdd(v)
n_hist, edges = histogramdd(v, normed=True)
w_hist, edges = histogramdd(v, weights=ones(100))
assert_array_equal(w_hist, hist)
w_hist, edges = histogramdd(v, weights=ones(100)*2, normed=True)
assert_array_equal(w_hist, n_hist)
w_hist, edges = histogramdd(v, weights=ones(100, int)*2)
assert_array_equal(w_hist, 2*hist)
def check_identical_samples(self):
x = zeros((10,2),int)
hist, edges = histogramdd(x, bins=2)
assert_array_equal(edges[0],array([-0.5, 0. , 0.5]))
class TestUnique(NumpyTestCase):
def check_simple(self):
x = array([4,3,2,1,1,2,3,4, 0])
assert(all(unique(x) == [0,1,2,3,4]))
assert(unique(array([1,1,1,1,1])) == array([1]))
x = ['widget', 'ham', 'foo', 'bar', 'foo', 'ham']
assert(all(unique(x) == ['bar', 'foo', 'ham', 'widget']))
x = array([5+6j, 1+1j, 1+10j, 10, 5+6j])
assert(all(unique(x) == [1+1j, 1+10j, 5+6j, 10]))
def compare_results(res,desired):
for i in range(len(desired)):
assert_array_equal(res[i],desired[i])
if __name__ == "__main__":
NumpyTest().run()
|
