#!/usr/bin/env python # # Created by: Pearu Peterson, March 2002 # """ Test functions for linalg.basic module """ """ Bugs: 1) solve.check_random_sym_complex fails if a is complex and transpose(a) = conjugate(a) (a is Hermitian). """ __usage__ = """ Build linalg: python setup_linalg.py build Run tests if scipy is installed: python -c 'import scipy;scipy.linalg.test()' Run tests if linalg is not installed: python tests/test_basic.py """ from numpy import arange, add, array, dot, zeros, identity, conjugate, transpose import numpy.linalg as linalg from numpy.testing import * from scipy.linalg import solve,inv,det,lstsq, toeplitz, hankel, tri, triu, \ tril, pinv, pinv2, solve_banded def random(size): return rand(*size) def get_mat(n): data = arange(n) data = add.outer(data,data) return data class TestSolveBanded(TestCase): def test_simple(self): a = [[1,20,0,0],[-30,4,6,0],[2,1,20,2],[0,-1,7,14]] ab = [[0,20,6,2], [1,4,20,14], [-30,1,7,0], [2,-1,0,0]] l,u = 2,1 for b in ([[1,0,0,0],[0,0,0,1],[0,1,0,0],[0,1,0,0]], [[2,1],[-30,4],[2,3],[1,3]]): x = solve_banded((l,u),ab,b) assert_array_almost_equal(dot(a,x),b) class TestSolve(TestCase): def test_20Feb04_bug(self): a = [[1,1],[1.0,0]] # ok x0 = solve(a,[1,0j]) assert_array_almost_equal(dot(a,x0),[1,0]) a = [[1,1],[1.2,0]] # gives failure with clapack.zgesv(..,rowmajor=0) b = [1,0j] x0 = solve(a,b) assert_array_almost_equal(dot(a,x0),[1,0]) def test_simple(self): a = [[1,20],[-30,4]] for b in ([[1,0],[0,1]],[1,0], [[2,1],[-30,4]]): x = solve(a,b) assert_array_almost_equal(dot(a,x),b) def test_simple_sym(self): a = [[2,3],[3,5]] for lower in [0,1]: for b in ([[1,0],[0,1]],[1,0]): x = solve(a,b,sym_pos=1,lower=lower) assert_array_almost_equal(dot(a,x),b) def test_simple_sym_complex(self): a = [[5,2],[2,4]] for b in [[1j,0], [[1j,1j], [0,2]], ]: x = solve(a,b,sym_pos=1) assert_array_almost_equal(dot(a,x),b) def test_simple_complex(self): a = array([[5,2],[2j,4]],'D') for b in [[1j,0], [[1j,1j], [0,2]], [1,0j], array([1,0],'D'), ]: x = solve(a,b) assert_array_almost_equal(dot(a,x),b) def test_nils_20Feb04(self): n = 2 A = random([n,n])+random([n,n])*1j X = zeros((n,n),'D') Ainv = inv(A) R = identity(n)+identity(n)*0j for i in arange(0,n): r = R[:,i] X[:,i] = solve(A,r) assert_array_almost_equal(X,Ainv) def test_random(self): n = 20 a = random([n,n]) for i in range(n): a[i,i] = 20*(.1+a[i,i]) for i in range(4): b = random([n,3]) x = solve(a,b) assert_array_almost_equal(dot(a,x),b) def test_random_complex(self): n = 20 a = random([n,n]) + 1j * random([n,n]) for i in range(n): a[i,i] = 20*(.1+a[i,i]) for i in range(2): b = random([n,3]) x = solve(a,b) assert_array_almost_equal(dot(a,x),b) def test_random_sym(self): n = 20 a = random([n,n]) for i in range(n): a[i,i] = abs(20*(.1+a[i,i])) for j in range(i): a[i,j] = a[j,i] for i in range(4): b = random([n]) x = solve(a,b,sym_pos=1) assert_array_almost_equal(dot(a,x),b) def test_random_sym_complex(self): n = 20 a = random([n,n]) #a = a + 1j*random([n,n]) # XXX: with this the accuracy will be very low for i in range(n): a[i,i] = abs(20*(.1+a[i,i])) for j in range(i): a[i,j] = conjugate(a[j,i]) b = random([n])+2j*random([n]) for i in range(2): x = solve(a,b,sym_pos=1) assert_array_almost_equal(dot(a,x),b) class TestInv(TestCase): def test_simple(self): a = [[1,2],[3,4]] a_inv = inv(a) assert_array_almost_equal(dot(a,a_inv), [[1,0],[0,1]]) a = [[1,2,3],[4,5,6],[7,8,10]] a_inv = inv(a) assert_array_almost_equal(dot(a,a_inv), [[1,0,0],[0,1,0],[0,0,1]]) def test_random(self): n = 20 for i in range(4): a = random([n,n]) for i in range(n): a[i,i] = 20*(.1+a[i,i]) a_inv = inv(a) assert_array_almost_equal(dot(a,a_inv), identity(n)) def test_simple_complex(self): a = [[1,2],[3,4j]] a_inv = inv(a) assert_array_almost_equal(dot(a,a_inv), [[1,0],[0,1]]) def test_random_complex(self): n = 20 for i in range(4): a = random([n,n])+2j*random([n,n]) for i in range(n): a[i,i] = 20*(.1+a[i,i]) a_inv = inv(a) assert_array_almost_equal(dot(a,a_inv), identity(n)) class TestDet(TestCase): def test_simple(self): a = [[1,2],[3,4]] a_det = det(a) assert_almost_equal(a_det,-2.0) def test_simple_complex(self): a = [[1,2],[3,4j]] a_det = det(a) assert_almost_equal(a_det,-6+4j) def test_random(self): basic_det = linalg.det n = 20 for i in range(4): a = random([n,n]) d1 = det(a) d2 = basic_det(a) assert_almost_equal(d1,d2) def test_random_complex(self): basic_det = linalg.det n = 20 for i in range(4): a = random([n,n]) + 2j*random([n,n]) d1 = det(a) d2 = basic_det(a) assert_almost_equal(d1,d2) def direct_lstsq(a,b,cmplx=0): at = transpose(a) if cmplx: at = conjugate(at) a1 = dot(at, a) b1 = dot(at, b) return solve(a1, b1) class TestLstsq(TestCase): def test_random_overdet_large(self): #bug report: Nils Wagner n = 200 a = random([n,2]) for i in range(2): a[i,i] = 20*(.1+a[i,i]) b = random([n,3]) x = lstsq(a,b)[0] assert_array_almost_equal(x,direct_lstsq(a,b)) def test_simple_exact(self): a = [[1,20],[-30,4]] for b in ([[1,0],[0,1]],[1,0], [[2,1],[-30,4]]): x = lstsq(a,b)[0] assert_array_almost_equal(dot(a,x),b) def test_simple_overdet(self): a = [[1,2],[4,5],[3,4]] b = [1,2,3] x,res,r,s = lstsq(a,b) #XXX: check defintion of res assert_array_almost_equal(x,direct_lstsq(a,b)) def test_simple_underdet(self): a = [[1,2,3],[4,5,6]] b = [1,2] x,res,r,s = lstsq(a,b) #XXX: need independent check assert_array_almost_equal(x,[[-0.05555556], [0.11111111],[0.27777778]]) def test_random_exact(self): n = 20 a = random([n,n]) for i in range(n): a[i,i] = 20*(.1+a[i,i]) for i in range(4): b = random([n,3]) x = lstsq(a,b)[0] assert_array_almost_equal(dot(a,x),b) def test_random_complex_exact(self): n = 20 a = random([n,n]) + 1j * random([n,n]) for i in range(n): a[i,i] = 20*(.1+a[i,i]) for i in range(2): b = random([n,3]) x = lstsq(a,b)[0] assert_array_almost_equal(dot(a,x),b) def test_random_overdet(self): n = 20 m = 15 a = random([n,m]) for i in range(m): a[i,i] = 20*(.1+a[i,i]) for i in range(4): b = random([n,3]) x,res,r,s = lstsq(a,b) assert r==m,'unexpected efficient rank' #XXX: check definition of res assert_array_almost_equal(x,direct_lstsq(a,b)) def test_random_complex_overdet(self): n = 20 m = 15 a = random([n,m]) + 1j * random([n,m]) for i in range(m): a[i,i] = 20*(.1+a[i,i]) for i in range(2): b = random([n,3]) x,res,r,s = lstsq(a,b) assert r==m,'unexpected efficient rank' #XXX: check definition of res assert_array_almost_equal(x,direct_lstsq(a,b,1)) class TestTri(TestCase): def test_basic(self): assert_equal(tri(4),array([[1,0,0,0], [1,1,0,0], [1,1,1,0], [1,1,1,1]])) assert_equal(tri(4,dtype='f'),array([[1,0,0,0], [1,1,0,0], [1,1,1,0], [1,1,1,1]],'f')) def test_diag(self): assert_equal(tri(4,k=1),array([[1,1,0,0], [1,1,1,0], [1,1,1,1], [1,1,1,1]])) assert_equal(tri(4,k=-1),array([[0,0,0,0], [1,0,0,0], [1,1,0,0], [1,1,1,0]])) def test_2d(self): assert_equal(tri(4,3),array([[1,0,0], [1,1,0], [1,1,1], [1,1,1]])) assert_equal(tri(3,4),array([[1,0,0,0], [1,1,0,0], [1,1,1,0]])) def test_diag2d(self): assert_equal(tri(3,4,k=2),array([[1,1,1,0], [1,1,1,1], [1,1,1,1]])) assert_equal(tri(4,3,k=-2),array([[0,0,0], [0,0,0], [1,0,0], [1,1,0]])) class TestTril(TestCase): def test_basic(self): a = (100*get_mat(5)).astype('l') b = a.copy() for k in range(5): for l in range(k+1,5): b[k,l] = 0 assert_equal(tril(a),b) def test_diag(self): a = (100*get_mat(5)).astype('f') b = a.copy() for k in range(5): for l in range(k+3,5): b[k,l] = 0 assert_equal(tril(a,k=2),b) b = a.copy() for k in range(5): for l in range(max((k-1,0)),5): b[k,l] = 0 assert_equal(tril(a,k=-2),b) class TestTriu(TestCase): def test_basic(self): a = (100*get_mat(5)).astype('l') b = a.copy() for k in range(5): for l in range(k+1,5): b[l,k] = 0 assert_equal(triu(a),b) def test_diag(self): a = (100*get_mat(5)).astype('f') b = a.copy() for k in range(5): for l in range(max((k-1,0)),5): b[l,k] = 0 assert_equal(triu(a,k=2),b) b = a.copy() for k in range(5): for l in range(k+3,5): b[l,k] = 0 assert_equal(triu(a,k=-2),b) class TestToeplitz(TestCase): def test_basic(self): y = toeplitz([1,2,3]) assert_array_equal(y,[[1,2,3],[2,1,2],[3,2,1]]) y = toeplitz([1,2,3],[1,4,5]) assert_array_equal(y,[[1,4,5],[2,1,4],[3,2,1]]) class TestHankel(TestCase): def test_basic(self): y = hankel([1,2,3]) assert_array_equal(y,[[1,2,3],[2,3,0],[3,0,0]]) y = hankel([1,2,3],[3,4,5]) assert_array_equal(y,[[1,2,3],[2,3,4],[3,4,5]]) class TestPinv(TestCase): def test_simple(self): a=array([[1,2,3],[4,5,6.],[7,8,10]]) a_pinv = pinv(a) assert_array_almost_equal(dot(a,a_pinv),[[1,0,0],[0,1,0],[0,0,1]]) a_pinv = pinv2(a) assert_array_almost_equal(dot(a,a_pinv),[[1,0,0],[0,1,0],[0,0,1]]) def test_simple_0det(self): a=array([[1,2,3],[4,5,6.],[7,8,9]]) a_pinv = pinv(a) a_pinv2 = pinv2(a) assert_array_almost_equal(a_pinv,a_pinv2) def test_simple_cols(self): a=array([[1,2,3],[4,5,6.]]) a_pinv = pinv(a) a_pinv2 = pinv2(a) assert_array_almost_equal(a_pinv,a_pinv2) def test_simple_rows(self): a=array([[1,2],[3,4],[5,6]]) a_pinv = pinv(a) a_pinv2 = pinv2(a) assert_array_almost_equal(a_pinv,a_pinv2) if __name__ == "__main__": run_module_suite()