def testArange(self):
"Test arange"
x = MA.arange(5)
assert eq(x, [0,1,2,3,4])
x = MA.arange(4, 6)
assert eq(x, [4,5])
x = MA.arange(0, 1.5, .5)
assert eq (x, [0.0, 0.5, 1.0])
assert len(MA.arange(5,3,2)) == 0
x = MA.arange(3L)
assert x[1] == 1L
assert x.typecode() == MA.PyObject
def testDotOuter (self):
"test the dot product and outer product"
assert MA.dot(self.a, self.a) == 55
assert eq (MA.add.outer(self.a[:3], self.a[:3]),
[[0,1,2],[1,2,3],[2,3,4]])
assert eq (MA.outerproduct(self.a[:3], self.a[:3]),
[[0,0,0],[0,1,2],[0,2,4]])
a = MA.arange(4)
b = MA.arange(3)
c = MA.zeros((4,3))
c[0] = a[0]*b
c[1] = a[1]*b
c[2] = a[2]*b
c[3] = a[3]*b
assert eq(c, MA.outerproduct(a,b))
def testIndexing (self):
'Test indexing operations.'
x = MA.array([0,1,2,3,4,5])
for i in range(len(x)):
assert i == x[i]
x[2] = 20
assert eq(x, x[...])
w = MA.array([None])
assert w.typecode() == MA.PyObject
assert w[0] is None
assert isinstance(x[2], types.IntType)
assert x[2] == 20
x = MA.array([0,1,2,3,4,5,6])
assert eq (x[4:1:-1], [4,3,2])
assert eq(x[4:1:-2], [4,2])
assert eq(x[::-1], [6, 5,4,3,2,1,0])
assert eq(x[2:-1], [2,3,4,5])
m = MA.array([[1,2,3],[11,12,13]])
assert m[0,2] == 3
assert isinstance(m[0,2], types.IntType)
assert eq(m[...,1], [2,12])
assert eq(MA.arange(6)[..., MA.NewAxis], [[0],[1],[2],[3],[4],[5]])
x = MA.array([1,2,3])
y = MA.array(x)
x[0] == 66
assert y[0] != 66
b=MA.array([[1,2,3,4],[5,6,7,8]]*2)
# assert b[1:1].shape == (0,4)
# assert b[1:1, :].shape == (0,4)
# assert b[10:].shape == (0,4)
assert eq(b[2:10], [[1,2,3,4],[5,6,7,8]])
assert eq(b[2:10, ...], [[1,2,3,4],[5,6,7,8]])
def testComplex (self):
"Test complex numbers"
y = MA.arange(5) * 1.0
x = y + y[::-1] * 1.0j
assert x.typecode() == MA.Complex
assert eq(x.real, y)
assert eq(x.imag, y[::-1])
def testReshape (self):
"test reshape"
w = MA.reshape(self.m, (-1,2))
assert eq(w, [[1,2],[3,11],[12,13]])
w = MA.reshape (self.a, (2,3))
assert eq(w, [[0, 1, 2], [3, 4, 5]])
self.failUnlessRaises(ValueError, MA.reshape, MA.arange(5), (3,2))
self.failUnlessRaises(ValueError, MA.reshape, self.a, (4,-1))
self.failUnlessRaises(ValueError, MA.reshape, self.a, (5,6))
def testPickle (self):
"Test pickling of MA arrays."
import pickle
x = MA.arange(10)
fpik = open('foo.pik', 'wb')
pickle.dump(x, fpik, 0)
fpik.close()
fpik = open('foo.pik', 'rb')
y = pickle.load(open('foo.pik', 'rb'))
fpik.close()
assert eq(y,[0, 1, 2, 3, 4, 5, 6, 7, 8, 9])
assert MA.alltrue(MA.equal(x,y))
assert MA.sometrue(MA.equal(x,3))
assert y.shape == (10,)
def testOperators (self):
"Test the operators +, -, *, /, %, ^, &, |"
x = MA.array([1.,2.,3.,4.,5.,6.])
y = MA.array([-1.,2.,0.,2.,-1, 3.])
assert eq(x + y, [0., 4., 3., 6., 4., 9.])
assert eq(x - y, [2., 0., 3., 2., 6., 3.])
assert eq(x * y, [-1., 4., 0., 8., -5., 18.])
assert eq(y / x, [-1, 1., 0., .5, -.2, .5])
assert eq(x**2, [1., 4., 9., 16., 25., 36.])
xc = MA.array([1.,2.,3.,4.,5.,6.])
xc += y
assert eq(xc, x + y)
xc = MA.array([1.,2.,3.,4.,5.,6.])
xc -= y
assert eq(xc, x - y)
yc = MA.array(y, copy=1)
yc /= x
assert eq ( yc, y / x)
xc = MA.array([1.,2.,3.,4.,5.,6.])
y1 = [-1.,2.,0.,2.,-1, 3.]
xc *= y1
assert eq(xc, x * y1)
assert eq (x + y, MA.add(x, y))
assert eq (x - y, MA.subtract(x, y))
assert eq (x * y, MA.multiply(x, y))
assert eq (y / x, MA.divide (y, x))
d = x / y
assert d[2] is MA.masked
assert (MA.array(1) / MA.array(0)) is MA.masked
assert eq (x**2, MA.power(x,2))
x = MA.array([1,2])
y = MA.zeros((2,))
assert eq (x%x, y)
assert eq (MA.remainder(x,x), y)
assert eq (x <<1, [2,4])
assert eq (MA.left_shift(x,1), [2,4])
assert eq (x >>1, [0,1])
assert eq (MA.right_shift(x,1), [0,1])
assert eq (x & 2, [0,2])
assert eq (MA.bitwise_and (x, 2), [0,2])
assert eq (x | 1, [1,3])
assert eq (MA.bitwise_or (x, 1), [1,3])
assert eq (x ^ 2, [3,0])
assert eq (MA.bitwise_xor(x,2), [3,0])
# x = divmod(MA.array([2,1]), MA.array([1,2]))
# assert eq (x[0], [2,0])
# assert eq (x[1], [0,1])
assert (4L*MA.arange(3)).typecode() == MA.PyObject
def testReductions (self):
"Tests of reduce attribute."
a = MA.arange(6)
m = MA.array([[1,2,3],[11,12,13]])
assert MA.add.reduce(a) == 15
assert MA.multiply.reduce(m.shape) == len(m.flat)
assert eq(MA.add.reduce (m, 0), [12,14,16])
assert eq(MA.add.reduce (m, -1), [6,36])
assert eq(MA.multiply.reduce (m, 0), [11,24,39])
assert eq(MA.multiply.reduce (m, -1), [6,11*12*13])
assert MA.add.reduce([1]) == 1
assert MA.add.reduce([]) == 0
assert MA.multiply.reduce([]) == 1
assert MA.minimum.reduce(a) == 0
assert MA.maximum.reduce(a) == 5
def setUp (self):
self.a = .01 + MA.arange(6) / 8.0
self.m = MA.array([[1,2,3],[11,12,13]]) / 16.0
def testPut (self):
"test put and putmask"
x=MA.arange(5)
MA.put (x, [1,4],[10,40])
assert eq(x, [0,10,2,3,40])
x=MA.arange(5) * 1.0
MA.put (x, [1,4],[10.,40.])
assert eq(x, [0.,10.,2.,3.,40.])
x=MA.arange(5)
MA.put (x, [1,4],[10])
assert eq(x, [0,10,2,3,10])
x=MA.arange(5)
MA.put (x, [1,4],10)
assert eq(x, [0,10,2,3,10])
x=MA.arange(5)
MA.put (x, [0,1,2,3], [10,20])
assert eq(x, [10,20,10,20,4])
x=MA.arange(5)
MA.put (x, [[0,1],[2,3]], [10,20])
assert eq(x, [10,20,10,20,4])
x = MA.arange(5).astype(MA.Float32)
MA.put (x, [1,4],[10.,40.])
assert eq(x, [0,10,2,3,40])
x=MA.arange(6)*1.0
x.shape=(2,3)
MA.put(x, [1,4],[10,40])
assert eq(x, [[0,10,2],[3,40,5]])
x=MA.arange(5)
MA.putmask (x, [1,0,1,0,1], [-1,10,20,30,40])
assert eq(x, [-1,1,20,3,40])
x=MA.arange(10)
MA.putmask(x, MA.ones(10), 5)
assert eq(x, 5*MA.ones(10))
x=MA.arange(10)*1.0
x=x.astype(MA.Float32)
MA.putmask(x, [0,0,1,0,0,0,0,0,0,1], 3.0)
assert eq(x, [0.,1.,3.,3.,4.,5.,6.,7.,8.,3.])
x=MA.zeros((10,),MA.PyObject)
MA.putmask(x, [0,0,1,0,0,0,1,0,0,1], 0.0)
assert x[2] == 0.
assert x[1] == 0
x=MA.zeros((5,2),MA.PyObject)
m=MA.zeros((5,2), MA.Int)
m[3,1] = 1
m[2,0] = 1
MA.putmask(x, m, 0.0)
assert x[3,1] == 0.0
assert x[2,0] == 0
def setUp (self):
self.a = MA.arange(6)
self.m = MA.array([[1,2,3],[11,12,13]])
