def test_lib_vs_actual( self ): # checks that it is calculated the same in lib and in practice self.obj.pars['vds'] = 2 self.obj.pars['vector_diffs_segment'] = [1., 1.5, 3.] frac = lib_arai.get_FRAC(self.vds, self.vector_diffs_segment) obj_frac = self.obj.get_FRAC() self.assertEqual(frac, obj_frac)
def get_FRAC(self): vds = self.pars['specimen_vds'] vector_diffs_segment = self.pars['vector_diffs_segment'] FRAC = lib_arai.get_FRAC(vds, vector_diffs_segment) self.pars['FRAC'] = FRAC return FRAC
def get_FRAC(self): vds = self.pars['specimen_vds'] vector_diffs_segment = self.pars['vector_diffs_segment'] FRAC = lib_arai.get_FRAC(vds, vector_diffs_segment) self.pars['FRAC'] = FRAC return FRAC
def test_FRAC(self): frac = lib_arai.get_FRAC(self.vds, self.vector_diffs_segment) self.assertEqual(frac, 2.75)
def test_lib_vs_actual(self): # checks that it is calculated the same in lib and in practice self.obj.pars['vds'] = 2 self.obj.pars['vector_diffs_segment'] = [1., 1.5, 3.] frac = lib_arai.get_FRAC(self.vds, self.vector_diffs_segment) obj_frac = self.obj.get_FRAC() self.assertEqual(frac, obj_frac)
def test_FRAC(self): frac = lib_arai.get_FRAC(self.vds, self.vector_diffs_segment) self.assertEqual(frac, 2.75)