#!/usr/bin/env python # # Created by: Pearu Peterson, April 2002 # __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_blas.py [] """ from numpy import arange, add, array import math import sys from numpy.testing import * set_package_path() from linalg import fblas from linalg import cblas restore_path() class test_cblas1_simple(ScipyTestCase): def check_axpy(self): for p in 'sd': f = getattr(cblas,p+'axpy',None) if f is None: continue assert_array_almost_equal(f(5,[1,2,3],[2,-1,3]),[7,9,18]) for p in 'cz': f = getattr(cblas,p+'axpy',None) if f is None: continue assert_array_almost_equal(f(5,[1,2j,3],[2,-1,3]),[7,10j-1,18]) class test_fblas1_simple(ScipyTestCase): def check_axpy(self): for p in 'sd': f = getattr(fblas,p+'axpy',None) if f is None: continue assert_array_almost_equal(f([1,2,3],[2,-1,3],a=5),[7,9,18]) for p in 'cz': f = getattr(fblas,p+'axpy',None) if f is None: continue assert_array_almost_equal(f([1,2j,3],[2,-1,3],a=5),[7,10j-1,18]) def check_copy(self): for p in 'sd': f = getattr(fblas,p+'copy',None) if f is None: continue assert_array_almost_equal(f([3,4,5],[8]*3),[3,4,5]) for p in 'cz': f = getattr(fblas,p+'copy',None) if f is None: continue assert_array_almost_equal(f([3,4j,5+3j],[8]*3),[3,4j,5+3j]) def check_asum(self): for p in 'sd': f = getattr(fblas,p+'asum',None) if f is None: continue assert_almost_equal(f([3,-4,5]),12) for p in ['sc','dz']: f = getattr(fblas,p+'asum',None) if f is None: continue assert_almost_equal(f([3j,-4,3-4j]),14) def check_dot(self): for p in 'sd': f = getattr(fblas,p+'dot',None) if f is None: continue assert_almost_equal(f([3,-4,5],[2,5,1]),-9) for p in 'cz': f = getattr(fblas,p+'dotu',None) if f is None: continue assert_almost_equal(f([3j,-4,3-4j],[2,3,1]),-9+2j) f = getattr(fblas,p+'dotc') assert_almost_equal(f([3j,-4,3-4j],[2,3j,1]),3-14j) def check_nrm2(self): for p in 'sd': f = getattr(fblas,p+'nrm2',None) if f is None: continue assert_almost_equal(f([3,-4,5]),math.sqrt(50)) for p in ['sc','dz']: f = getattr(fblas,p+'nrm2',None) if f is None: continue assert_almost_equal(f([3j,-4,3-4j]),math.sqrt(50)) def check_scal(self): for p in 'sd': f = getattr(fblas,p+'scal',None) if f is None: continue assert_array_almost_equal(f(2,[3,-4,5]),[6,-8,10]) for p in 'cz': f = getattr(fblas,p+'scal',None) if f is None: continue assert_array_almost_equal(f(3j,[3j,-4,3-4j]),[-9,-12j,12+9j]) for p in ['cs','zd']: f = getattr(fblas,p+'scal',None) if f is None: continue assert_array_almost_equal(f(3,[3j,-4,3-4j]),[9j,-12,9-12j]) def check_swap(self): for p in 'sd': f = getattr(fblas,p+'swap',None) if f is None: continue x,y = [2,3,1],[-2,3,7] x1,y1 = f(x,y) assert_array_almost_equal(x1,y) assert_array_almost_equal(y1,x) for p in 'cz': f = getattr(fblas,p+'swap',None) if f is None: continue x,y = [2,3j,1],[-2,3,7-3j] x1,y1 = f(x,y) assert_array_almost_equal(x1,y) assert_array_almost_equal(y1,x) def check_amax(self): for p in 'sd': f = getattr(fblas,'i'+p+'amax') assert_equal(f([-2,4,3]),1) for p in 'cz': f = getattr(fblas,'i'+p+'amax') assert_equal(f([-5,4+3j,6]),1) #XXX: need tests for rot,rotm,rotg,rotmg class test_fblas2_simple(ScipyTestCase): def check_gemv(self): for p in 'sd': f = getattr(fblas,p+'gemv',None) if f is None: continue assert_array_almost_equal(f(3,[[3]],[-4]),[-36]) assert_array_almost_equal(f(3,[[3]],[-4],3,[5]),[-21]) for p in 'cz': f = getattr(fblas,p+'gemv',None) if f is None: continue assert_array_almost_equal(f(3j,[[3-4j]],[-4]),[-48-36j]) assert_array_almost_equal(f(3j,[[3-4j]],[-4],3,[5j]),[-48-21j]) def check_ger(self): for p in 'sd': f = getattr(fblas,p+'ger',None) if f is None: continue assert_array_almost_equal(f(1,[1, 2],[3,4]),[[3,4],[6,8]]) assert_array_almost_equal(f(2,[1, 2, 3],[3,4]),[[6,8],[12,16],[18,24]]) assert_array_almost_equal(f(1,[1, 2],[3,4], a=[[1,2],[3,4]] ),[[4,6],[9,12]]) for p in 'cz': f = getattr(fblas,p+'geru',None) if f is None: continue assert_array_almost_equal(f(1,[1j, 2],[3,4]),[[3j,4j],[6,8]]) assert_array_almost_equal(f(-2,[1j, 2j, 3j],[3j,4j]),[[6,8],[12,16],[18,24]]) for p in 'cz': f = getattr(fblas,p+'gerc',None) if f is None: continue assert_array_almost_equal(f(1,[1j, 2],[3,4]),[[3j,4j],[6,8]]) assert_array_almost_equal(f(2,[1j, 2j, 3j],[3j,4j]),[[6,8],[12,16],[18,24]]) class test_fblas3_simple(ScipyTestCase): def check_gemm(self): for p in 'sd': f = getattr(fblas,p+'gemm',None) if f is None: continue assert_array_almost_equal(f(3,[3],[-4]),[[-36]]) assert_array_almost_equal(f(3,[3],[-4],3,[5]),[-21]) for p in 'cz': f = getattr(fblas,p+'gemm',None) if f is None: continue assert_array_almost_equal(f(3j,[3-4j],[-4]),[[-48-36j]]) assert_array_almost_equal(f(3j,[3-4j],[-4],3,[5j]),[-48-21j]) class test_blas(ScipyTestCase): def check_fblas(self): if hasattr(fblas,'empty_module'): print """ **************************************************************** WARNING: fblas module is empty. ----------- See scipy/INSTALL.txt for troubleshooting. **************************************************************** """ def check_cblas(self): if hasattr(cblas,'empty_module'): print """ **************************************************************** WARNING: cblas module is empty ----------- See scipy/INSTALL.txt for troubleshooting. Notes: * If atlas library is not found by numpy/distutils/system_info.py, then scipy uses fblas instead of cblas. **************************************************************** """ if __name__ == "__main__": ScipyTest().run()