def test_HDF5Exporter_unequal_lengths(tmp_h5): # Test export with multiple curves of different size. The exporter should # detect this and create multiple hdf5 datasets under a group. x1 = np.linspace(0, 1, 10) y1 = np.sin(x1) x2 = np.linspace(0, 1, 100) y2 = np.cos(x2) plt = pg.plot() plt.plot(x=x1, y=y1, name='plot0') plt.plot(x=x2, y=y2) ex = HDF5Exporter(plt.plotItem) ex.export(fileName=tmp_h5) with h5py.File(tmp_h5, 'r') as f: # should be a group with the name of the exporter group = f[ex.parameters()['Name']] assert isinstance(group, h5py.Group) # should be a dataset under the group with the name of the PlotItem assert_equal(np.array([x1, y1]), group['plot0']) # should be a dataset under the group with a default name that's the # index of the curve in the PlotItem assert_equal(np.array([x2, y2]), group['1'])
def test_HDF5Exporter(tmp_h5, combine): # Basic test of functionality: multiple curves with shared x array. Tests # both options for stacking the data (columnMode). x = np.linspace(0, 1, 100) y1 = np.sin(x) y2 = np.cos(x) plt = pg.plot() plt.plot(x=x, y=y1) plt.plot(x=x, y=y2) ex = HDF5Exporter(plt.plotItem) if combine: ex.parameters()['columnMode'] = '(x,y,y,y) for all plots' ex.export(fileName=tmp_h5) with h5py.File(tmp_h5, 'r') as f: # should be a single dataset with the name of the exporter dset = f[ex.parameters()['Name']] assert isinstance(dset, h5py.Dataset) if combine: assert_equal(np.array([x, y1, y2]), dset) else: assert_equal(np.array([x, y1, x, y2]), dset)