diff -rupN cpp/tests/test_c.cpp cpp-new/tests/test_c.cpp --- cpp/tests/test_c.cpp 2019-02-20 16:34:14.000000000 +0100 +++ cpp-new/tests/test_c.cpp 2019-02-23 17:32:31.243746932 +0100 @@ -3687,8 +3687,8 @@ ae_bool testhqrnd(ae_bool silent, ae_sta /* *Discrete/Continuous tests */ - discreteerr = hqrnddiscretetest(ae_true, _state); - continuouserr = hqrndcontinuoustest(ae_true, _state); + discreteerr = hqrnddiscretetest(ae_false, _state); + continuouserr = hqrndcontinuoustest(ae_false, _state); /* * Final report @@ -4356,8 +4356,8 @@ ae_bool testsparse(ae_bool silent, ae_st linearserrors = linearfunctionsstest(_state); linearmmerrors = linearfunctionsmmtest(_state); linearsmmerrors = linearfunctionssmmtest(_state); - copyerrors = copyfunctest(ae_true, _state)||testsparseunit_testconvertsm(_state); - basiccopyerrors = basiccopyfunctest(ae_true, _state); + copyerrors = copyfunctest(ae_false, _state)||testsparseunit_testconvertsm(_state); + basiccopyerrors = basiccopyfunctest(ae_false, _state); enumerateerrors = testsparseunit_enumeratetest(_state); rewriteexistingerr = testsparseunit_rewriteexistingtest(_state); testsparseunit_testgetrow(&getrowerrors, _state); @@ -33206,14 +33206,14 @@ ae_bool testlinlsqr(ae_bool silent, ae_s termreqerrors = ae_false; - svdtesterrors = testlinlsqrunit_svdtest(ae_true, _state); - mwcranksvderr = testlinlsqrunit_mwcranksvdtest(ae_true, _state); - mwicranksvderr = testlinlsqrunit_mwicranksvdtest(ae_true, _state); - bidiagonalerr = testlinlsqrunit_bidiagonaltest(ae_true, _state); - zeromatrixerr = testlinlsqrunit_zeromatrixtest(ae_true, _state); - reportcorrectnesserr = testlinlsqrunit_reportcorrectnesstest(ae_true, _state); - stoppingcriteriaerr = testlinlsqrunit_stoppingcriteriatest(ae_true, _state); - analytictesterrors = testlinlsqrunit_analytictest(ae_true, _state); + svdtesterrors = testlinlsqrunit_svdtest(ae_false, _state); + mwcranksvderr = testlinlsqrunit_mwcranksvdtest(ae_false, _state); + mwicranksvderr = testlinlsqrunit_mwicranksvdtest(ae_false, _state); + bidiagonalerr = testlinlsqrunit_bidiagonaltest(ae_false, _state); + zeromatrixerr = testlinlsqrunit_zeromatrixtest(ae_false, _state); + reportcorrectnesserr = testlinlsqrunit_reportcorrectnesstest(ae_false, _state); + stoppingcriteriaerr = testlinlsqrunit_stoppingcriteriatest(ae_false, _state); + analytictesterrors = testlinlsqrunit_analytictest(ae_false, _state); prectesterrors = testlinlsqrunit_preconditionertest(_state); testlinlsqrunit_testterminationrequests(&termreqerrors, _state); @@ -81685,9 +81685,9 @@ ae_bool testfilters(ae_bool silent, ae_s ae_bool result; - smaerrors = testsma(ae_true, _state); - emaerrors = testema(ae_true, _state); - lrmaerrors = testlrma(ae_true, _state); + smaerrors = testsma(ae_false, _state); + emaerrors = testema(ae_false, _state); + lrmaerrors = testlrma(ae_false, _state); /* * Final report @@ -101357,7 +101357,7 @@ static ae_bool testspline3dunit_basictes * Prepare a model and check that functions (Spline3DBuildTrilinear, * Spline3DCalc,Spline3DCalcV) work correctly and */ - testspline3dunit_buildrndgrid(ae_true, ae_true, &n, &m, &l, &d, &x, &y, &z, &vf, _state); + testspline3dunit_buildrndgrid(ae_false, ae_true, &n, &m, &l, &d, &x, &y, &z, &vf, _state); rvectorsetlengthatleast(&sf, n*m*l, _state); /* @@ -101469,7 +101469,7 @@ static ae_bool testspline3dunit_testunpa * NOTE: for this test we need ordered grid, i.e. grid * with nodes in ascending order */ - testspline3dunit_buildrndgrid(ae_true, ae_false, &n, &m, &l, &d, &x, &y, &z, &vf, _state); + testspline3dunit_buildrndgrid(ae_false, ae_false, &n, &m, &l, &d, &x, &y, &z, &vf, _state); sz = n*m*l; rvectorsetlengthatleast(&sf, sz, _state); spline3dbuildtrilinearv(&x, n, &y, m, &z, l, &vf, d, &c, _state); @@ -101628,7 +101628,7 @@ static ae_bool testspline3dunit_testlint passcount = 15; for(pass=1; pass<=passcount; pass++) { - testspline3dunit_buildrndgrid(ae_true, ae_false, &n, &m, &l, &d, &x, &y, &z, &f, _state); + testspline3dunit_buildrndgrid(ae_false, ae_false, &n, &m, &l, &d, &x, &y, &z, &f, _state); spline3dbuildtrilinearv(&x, n, &y, m, &z, l, &f, d, &c, _state); for(xjob=0; xjob<=1; xjob++) { @@ -108404,8 +108404,8 @@ ae_bool testspline2d(ae_bool silent, ae_ /* * Test for vector-function */ - vferrors = testspline2dunit_testspline2dvf(ae_true, _state); - + vferrors = testspline2dunit_testspline2dvf(ae_false, _state); + /* * Report */ @@ -111166,7 +111166,7 @@ ae_bool testrbf(ae_bool silent, ae_state basicrbferrors = testrbfunit_basicrbftest(_state); irregularrbferrors = testrbfunit_irregularrbftest(_state); linearitymodelrbferr = testrbfunit_linearitymodelrbftest(_state); - sqrdegmatrixrbferr = sqrdegmatrixrbftest(ae_true, _state); + sqrdegmatrixrbferr = sqrdegmatrixrbftest(ae_false, _state); multilayerrbf1derrors = ae_false; multilayerrbferrors = testrbfunit_basicmultilayerrbftest(_state); sererrors = testrbfunit_serializationtest(_state); @@ -120336,14 +120336,14 @@ ae_bool testlincg(ae_bool silent, ae_sta ae_bool result; - basictestxerrors = testlincgunit_basictestx(ae_true, _state); - basictestiterserr = testlincgunit_basictestiters(ae_true, _state); - complexreserrors = testlincgunit_complexres(ae_true, _state); - complexerrors = testlincgunit_complextest(ae_true, _state); - rcorrectness = testlincgunit_testrcorrectness(ae_true, _state); - krylovsubspaceerr = testlincgunit_krylovsubspacetest(ae_true, _state); - sparseerrors = testlincgunit_sparsetest(ae_true, _state); - preconderrors = testlincgunit_precondtest(ae_true, _state); + basictestxerrors = testlincgunit_basictestx(ae_false, _state); + basictestiterserr = testlincgunit_basictestiters(ae_false, _state); + complexreserrors = testlincgunit_complexres(ae_false, _state); + complexerrors = testlincgunit_complextest(ae_false, _state); + rcorrectness = testlincgunit_testrcorrectness(ae_false, _state); + krylovsubspaceerr = testlincgunit_krylovsubspacetest(ae_false, _state); + sparseerrors = testlincgunit_sparsetest(ae_false, _state); + preconderrors = testlincgunit_precondtest(ae_false, _state); /* * report