[Numpy-svn] r5408 - trunk/numpy/linalg/tests

numpy-svn@scip... numpy-svn@scip...
Sun Jul 13 19:27:41 CDT 2008


Author: alan.mcintyre
Date: 2008-07-13 19:27:38 -0500 (Sun, 13 Jul 2008)
New Revision: 5408

Modified:
   trunk/numpy/linalg/tests/test_linalg.py
Log:
Added tests for eigenvalue/vector functions for Hermitian matrices..


Modified: trunk/numpy/linalg/tests/test_linalg.py
===================================================================
--- trunk/numpy/linalg/tests/test_linalg.py	2008-07-13 23:56:51 UTC (rev 5407)
+++ trunk/numpy/linalg/tests/test_linalg.py	2008-07-14 00:27:38 UTC (rev 5408)
@@ -202,5 +202,60 @@
         assert_equal(matrix_power(A,2),A)
 
 
+class HermitianTestCase:
+    def test_single(self):
+        a = array([[1.,2.], [2.,1.]], dtype=single)
+        self.do(a)
+
+    def test_double(self):
+        a = array([[1.,2.], [2.,1.]], dtype=double)
+        self.do(a)
+
+    def test_csingle(self):
+        a = array([[1.,2+3j], [2-3j,1]], dtype=csingle)
+        self.do(a)
+
+    def test_cdouble(self):
+        a = array([[1.,2+3j], [2-3j,1]], dtype=cdouble)
+        self.do(a)
+
+    def test_empty(self):
+        a = atleast_2d(array([], dtype = double))
+        assert_raises(linalg.LinAlgError, self.do, a)
+
+    def test_nonarray(self):
+        a = [[1,2], [2,1]]
+        self.do(a)
+
+    def test_matrix_b_only(self):
+        """Check that matrix type is preserved."""
+        a = array([[1.,2.], [2.,1.]])
+        self.do(a)
+
+    def test_matrix_a_and_b(self):
+        """Check that matrix type is preserved."""
+        a = matrix([[1.,2.], [2.,1.]])
+        self.do(a)
+
+class TestEigvalsh(HermitianTestCase, TestCase):
+    def do(self, a):
+        ev = linalg.eigvalsh(a)
+        # flip resulting eigenvalue array, since they are returned in
+        # reverse order from the values given by linal.eig
+        ev = ev[::-1]
+
+        evalues, evectors = linalg.eig(a)
+        assert_almost_equal(ev, evalues)
+
+class TestEigh(HermitianTestCase, TestCase):
+    def do(self, a):
+        ev, evc = linalg.eigh(a)
+        # flip resulting eigenvalue array, since they are returned in
+        # reverse order from the values given by linal.eig
+        ev = ev[::-1]
+
+        evalues, evectors = linalg.eig(a)
+        assert_almost_equal(ev, evalues)
+
 if __name__ == "__main__":
     run_module_suite()



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