def test_positivearf_explicit(self): elo, ehi, de = self.grid['arf1'] res = chart._get_chart_spectrum(elow=elo, ehigh=ehi, ewidth=de, id='arf1') # self.assertGreater(res['y'].sum(), 0.0) self.assertTrue(np.all(res['y'] > 0))
def test_positivearf(self): res = chart._get_chart_spectrum(id='arf1') # self.assertGreater(res['y'].sum(), 0.0) self.assertTrue(np.all(res['y'] > 0))
def test_positive1(self): elo, ehi, de = self.grid[1] res = chart._get_chart_spectrum(elow=elo, ehigh=ehi, ewidth=de) # self.assertGreater(res['y'].sum(), 0.0) self.assertTrue(np.all(res['y'] > 0))
def test_gridarf_explicit(self): elo, ehi, de = self.grid['arf1'] res = chart._get_chart_spectrum(elow=elo, ehigh=ehi, ewidth=de, id='arf1') self.check_spacing(res, self.nbins['arf1'], elo, ehi, de)
def test_gridarf(self): elo, ehi, de = self.grid['arf1-arf'] res = chart._get_chart_spectrum(id='arf1') self.check_spacing(res, self.nbins['arf1-arf'], elo, ehi, de)
def test_grid1(self): elo, ehi, de = self.grid[1] res = chart._get_chart_spectrum(elow=elo, ehigh=ehi, ewidth=de) self.check_spacing(res, self.nbins[1], elo, ehi, de)