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Diffstat (limited to 'numpy/doc/swig/test/testVector.py')
| -rwxr-xr-x | numpy/doc/swig/test/testVector.py | 384 |
1 files changed, 384 insertions, 0 deletions
diff --git a/numpy/doc/swig/test/testVector.py b/numpy/doc/swig/test/testVector.py new file mode 100755 index 000000000..82a922e25 --- /dev/null +++ b/numpy/doc/swig/test/testVector.py @@ -0,0 +1,384 @@ +#! /usr/bin/env python + +# System imports +from distutils.util import get_platform +import os +import sys +import unittest + +# Import NumPy +import numpy as N +major, minor = [ int(d) for d in N.__version__.split(".")[:2] ] +if major == 0: BadListError = TypeError +else: BadListError = ValueError + +# Add the distutils-generated build directory to the python search path and then +# import the extension module +libDir = "lib.%s-%s" % (get_platform(), sys.version[:3]) +sys.path.insert(0,os.path.join("build", libDir)) +import Vector + +###################################################################### + +class VectorTestCase(unittest.TestCase): + + def __init__(self, methodName="runTest"): + unittest.TestCase.__init__(self, methodName) + self.typeStr = "double" + self.typeCode = "d" + + # Test the (type IN_ARRAY1[ANY]) typemap + def testLength(self): + "Test length function" + print >>sys.stderr, self.typeStr, "... ", + length = Vector.__dict__[self.typeStr + "Length"] + self.assertEquals(length([5, 12, 0]), 13) + + # Test the (type IN_ARRAY1[ANY]) typemap + def testLengthBadList(self): + "Test length function with bad list" + print >>sys.stderr, self.typeStr, "... ", + length = Vector.__dict__[self.typeStr + "Length"] + self.assertRaises(BadListError, length, [5, "twelve", 0]) + + # Test the (type IN_ARRAY1[ANY]) typemap + def testLengthWrongSize(self): + "Test length function with wrong size" + print >>sys.stderr, self.typeStr, "... ", + length = Vector.__dict__[self.typeStr + "Length"] + self.assertRaises(TypeError, length, [5, 12]) + + # Test the (type IN_ARRAY1[ANY]) typemap + def testLengthWrongDim(self): + "Test length function with wrong dimensions" + print >>sys.stderr, self.typeStr, "... ", + length = Vector.__dict__[self.typeStr + "Length"] + self.assertRaises(TypeError, length, [[1,2], [3,4]]) + + # Test the (type IN_ARRAY1[ANY]) typemap + def testLengthNonContainer(self): + "Test length function with non-container" + print >>sys.stderr, self.typeStr, "... ", + length = Vector.__dict__[self.typeStr + "Length"] + self.assertRaises(TypeError, length, None) + + # Test the (type* IN_ARRAY1, int DIM1) typemap + def testProd(self): + "Test prod function" + print >>sys.stderr, self.typeStr, "... ", + prod = Vector.__dict__[self.typeStr + "Prod"] + self.assertEquals(prod([1,2,3,4]), 24) + + # Test the (type* IN_ARRAY1, int DIM1) typemap + def testProdBadList(self): + "Test prod function with bad list" + print >>sys.stderr, self.typeStr, "... ", + prod = Vector.__dict__[self.typeStr + "Prod"] + self.assertRaises(BadListError, prod, [[1,"two"], ["e","pi"]]) + + # Test the (type* IN_ARRAY1, int DIM1) typemap + def testProdWrongDim(self): + "Test prod function with wrong dimensions" + print >>sys.stderr, self.typeStr, "... ", + prod = Vector.__dict__[self.typeStr + "Prod"] + self.assertRaises(TypeError, prod, [[1,2], [8,9]]) + + # Test the (type* IN_ARRAY1, int DIM1) typemap + def testProdNonContainer(self): + "Test prod function with non-container" + print >>sys.stderr, self.typeStr, "... ", + prod = Vector.__dict__[self.typeStr + "Prod"] + self.assertRaises(TypeError, prod, None) + + # Test the (int DIM1, type* IN_ARRAY1) typemap + def testSum(self): + "Test sum function" + print >>sys.stderr, self.typeStr, "... ", + sum = Vector.__dict__[self.typeStr + "Sum"] + self.assertEquals(sum([5,6,7,8]), 26) + + # Test the (int DIM1, type* IN_ARRAY1) typemap + def testSumBadList(self): + "Test sum function with bad list" + print >>sys.stderr, self.typeStr, "... ", + sum = Vector.__dict__[self.typeStr + "Sum"] + self.assertRaises(BadListError, sum, [3,4, 5, "pi"]) + + # Test the (int DIM1, type* IN_ARRAY1) typemap + def testSumWrongDim(self): + "Test sum function with wrong dimensions" + print >>sys.stderr, self.typeStr, "... ", + sum = Vector.__dict__[self.typeStr + "Sum"] + self.assertRaises(TypeError, sum, [[3,4], [5,6]]) + + # Test the (int DIM1, type* IN_ARRAY1) typemap + def testSumNonContainer(self): + "Test sum function with non-container" + print >>sys.stderr, self.typeStr, "... ", + sum = Vector.__dict__[self.typeStr + "Sum"] + self.assertRaises(TypeError, sum, True) + + # Test the (type INPLACE_ARRAY1[ANY]) typemap + def testReverse(self): + "Test reverse function" + print >>sys.stderr, self.typeStr, "... ", + reverse = Vector.__dict__[self.typeStr + "Reverse"] + vector = N.array([1,2,4],self.typeCode) + reverse(vector) + self.assertEquals((vector == [4,2,1]).all(), True) + + # Test the (type INPLACE_ARRAY1[ANY]) typemap + def testReverseWrongDim(self): + "Test reverse function with wrong dimensions" + print >>sys.stderr, self.typeStr, "... ", + reverse = Vector.__dict__[self.typeStr + "Reverse"] + vector = N.array([[1,2], [3,4]],self.typeCode) + self.assertRaises(TypeError, reverse, vector) + + # Test the (type INPLACE_ARRAY1[ANY]) typemap + def testReverseWrongSize(self): + "Test reverse function with wrong size" + print >>sys.stderr, self.typeStr, "... ", + reverse = Vector.__dict__[self.typeStr + "Reverse"] + vector = N.array([9,8,7,6,5,4],self.typeCode) + self.assertRaises(TypeError, reverse, vector) + + # Test the (type INPLACE_ARRAY1[ANY]) typemap + def testReverseWrongType(self): + "Test reverse function with wrong type" + print >>sys.stderr, self.typeStr, "... ", + reverse = Vector.__dict__[self.typeStr + "Reverse"] + vector = N.array([1,2,4],'c') + self.assertRaises(TypeError, reverse, vector) + + # Test the (type INPLACE_ARRAY1[ANY]) typemap + def testReverseNonArray(self): + "Test reverse function with non-array" + print >>sys.stderr, self.typeStr, "... ", + reverse = Vector.__dict__[self.typeStr + "Reverse"] + self.assertRaises(TypeError, reverse, [2,4,6]) + + # Test the (type* INPLACE_ARRAY1, int DIM1) typemap + def testOnes(self): + "Test ones function" + print >>sys.stderr, self.typeStr, "... ", + ones = Vector.__dict__[self.typeStr + "Ones"] + vector = N.zeros(5,self.typeCode) + ones(vector) + N.testing.assert_array_equal(vector, N.array([1,1,1,1,1])) + + # Test the (type* INPLACE_ARRAY1, int DIM1) typemap + def testOnesWrongDim(self): + "Test ones function with wrong dimensions" + print >>sys.stderr, self.typeStr, "... ", + ones = Vector.__dict__[self.typeStr + "Ones"] + vector = N.zeros((5,5),self.typeCode) + self.assertRaises(TypeError, ones, vector) + + # Test the (type* INPLACE_ARRAY1, int DIM1) typemap + def testOnesWrongType(self): + "Test ones function with wrong type" + print >>sys.stderr, self.typeStr, "... ", + ones = Vector.__dict__[self.typeStr + "Ones"] + vector = N.zeros((5,5),'c') + self.assertRaises(TypeError, ones, vector) + + # Test the (type* INPLACE_ARRAY1, int DIM1) typemap + def testOnesNonArray(self): + "Test ones function with non-array" + print >>sys.stderr, self.typeStr, "... ", + ones = Vector.__dict__[self.typeStr + "Ones"] + self.assertRaises(TypeError, ones, [2,4,6,8]) + + # Test the (int DIM1, type* INPLACE_ARRAY1) typemap + def testZeros(self): + "Test zeros function" + print >>sys.stderr, self.typeStr, "... ", + zeros = Vector.__dict__[self.typeStr + "Zeros"] + vector = N.ones(5,self.typeCode) + zeros(vector) + N.testing.assert_array_equal(vector, N.array([0,0,0,0,0])) + + # Test the (int DIM1, type* INPLACE_ARRAY1) typemap + def testZerosWrongDim(self): + "Test zeros function with wrong dimensions" + print >>sys.stderr, self.typeStr, "... ", + zeros = Vector.__dict__[self.typeStr + "Zeros"] + vector = N.ones((5,5),self.typeCode) + self.assertRaises(TypeError, zeros, vector) + + # Test the (int DIM1, type* INPLACE_ARRAY1) typemap + def testZerosWrongType(self): + "Test zeros function with wrong type" + print >>sys.stderr, self.typeStr, "... ", + zeros = Vector.__dict__[self.typeStr + "Zeros"] + vector = N.ones(6,'c') + self.assertRaises(TypeError, zeros, vector) + + # Test the (int DIM1, type* INPLACE_ARRAY1) typemap + def testZerosNonArray(self): + "Test zeros function with non-array" + print >>sys.stderr, self.typeStr, "... ", + zeros = Vector.__dict__[self.typeStr + "Zeros"] + self.assertRaises(TypeError, zeros, [1,3,5,7,9]) + + # Test the (type ARGOUT_ARRAY1[ANY]) typemap + def testEOSplit(self): + "Test eoSplit function" + print >>sys.stderr, self.typeStr, "... ", + eoSplit = Vector.__dict__[self.typeStr + "EOSplit"] + even, odd = eoSplit([1,2,3]) + self.assertEquals((even == [1,0,3]).all(), True) + self.assertEquals((odd == [0,2,0]).all(), True) + + # Test the (type* ARGOUT_ARRAY1, int DIM1) typemap + def testTwos(self): + "Test twos function" + print >>sys.stderr, self.typeStr, "... ", + twos = Vector.__dict__[self.typeStr + "Twos"] + vector = twos(5) + self.assertEquals((vector == [2,2,2,2,2]).all(), True) + + # Test the (type* ARGOUT_ARRAY1, int DIM1) typemap + def testTwosNonInt(self): + "Test twos function with non-integer dimension" + print >>sys.stderr, self.typeStr, "... ", + twos = Vector.__dict__[self.typeStr + "Twos"] + self.assertRaises(TypeError, twos, 5.0) + + # Test the (int DIM1, type* ARGOUT_ARRAY1) typemap + def testThrees(self): + "Test threes function" + print >>sys.stderr, self.typeStr, "... ", + threes = Vector.__dict__[self.typeStr + "Threes"] + vector = threes(6) + self.assertEquals((vector == [3,3,3,3,3,3]).all(), True) + + # Test the (type* ARGOUT_ARRAY1, int DIM1) typemap + def testThreesNonInt(self): + "Test threes function with non-integer dimension" + print >>sys.stderr, self.typeStr, "... ", + threes = Vector.__dict__[self.typeStr + "Threes"] + self.assertRaises(TypeError, threes, "threes") + +###################################################################### + +class scharTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "schar" + self.typeCode = "b" + +###################################################################### + +class ucharTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "uchar" + self.typeCode = "B" + +###################################################################### + +class shortTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "short" + self.typeCode = "h" + +###################################################################### + +class ushortTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "ushort" + self.typeCode = "H" + +###################################################################### + +class intTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "int" + self.typeCode = "i" + +###################################################################### + +class uintTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "uint" + self.typeCode = "I" + +###################################################################### + +class longTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "long" + self.typeCode = "l" + +###################################################################### + +class ulongTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "ulong" + self.typeCode = "L" + +###################################################################### + +class longLongTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "longLong" + self.typeCode = "q" + +###################################################################### + +class ulongLongTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "ulongLong" + self.typeCode = "Q" + +###################################################################### + +class floatTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "float" + self.typeCode = "f" + +###################################################################### + +class doubleTestCase(VectorTestCase): + def __init__(self, methodName="runTest"): + VectorTestCase.__init__(self, methodName) + self.typeStr = "double" + self.typeCode = "d" + +###################################################################### + +if __name__ == "__main__": + + # Build the test suite + suite = unittest.TestSuite() + suite.addTest(unittest.makeSuite( scharTestCase)) + suite.addTest(unittest.makeSuite( ucharTestCase)) + suite.addTest(unittest.makeSuite( shortTestCase)) + suite.addTest(unittest.makeSuite( ushortTestCase)) + suite.addTest(unittest.makeSuite( intTestCase)) + suite.addTest(unittest.makeSuite( uintTestCase)) + suite.addTest(unittest.makeSuite( longTestCase)) + suite.addTest(unittest.makeSuite( ulongTestCase)) + suite.addTest(unittest.makeSuite( longLongTestCase)) + suite.addTest(unittest.makeSuite(ulongLongTestCase)) + suite.addTest(unittest.makeSuite( floatTestCase)) + suite.addTest(unittest.makeSuite( doubleTestCase)) + + # Execute the test suite + print "Testing 1D Functions of Module Vector" + print "NumPy version", N.__version__ + print + result = unittest.TextTestRunner(verbosity=2).run(suite) + sys.exit(len(result.errors) + len(result.failures)) |