#!/usr/bin/env python3 import os import shutil import numpy as np import trexio #=========================================================# #======== SETUP THE BACK END AND OUTPUT FILE NAME ========# #=========================================================# # 0: TREXIO_HDF5 ; 1: TREXIO_TEXT TEST_TREXIO_BACKEND = 0 OUTPUT_FILENAME_TEXT = 'test_py_swig.dir' OUTPUT_FILENAME_HDF5 = 'test_py_swig.h5' # define TREXIO file name if TEST_TREXIO_BACKEND == trexio.TREXIO_HDF5: output_filename = OUTPUT_FILENAME_HDF5 elif TEST_TREXIO_BACKEND == trexio.TREXIO_TEXT: output_filename = OUTPUT_FILENAME_TEXT else: raise ValueError ('Specify one of the supported back ends as TEST_TREXIO_BACKEND') # remove TREXIO file if exists in the current directory try: if TEST_TREXIO_BACKEND == trexio.TREXIO_HDF5: os.remove(output_filename) elif TEST_TREXIO_BACKEND == trexio.TREXIO_TEXT: shutil.rmtree(output_filename) except: print('Nothing to remove.') #=========================================================# #============ WRITE THE DATA IN THE TEST FILE ============# #=========================================================# trexio.info() # test with ... as ... block with trexio.File(output_filename, mode='w', back_end=TEST_TREXIO_BACKEND) as tfile: trexio.write_metadata_description(tfile, "Test file produced by the Python API") assert trexio.has_metadata_description(tfile) assert tfile.isOpen # the file handle can remain existing but the file itself is closed upon exit from the `with` block assert not tfile.isOpen # create TREXIO file and open it for writing test_file = trexio.File(output_filename, mode='w', back_end=TEST_TREXIO_BACKEND) assert test_file.exists # Print docstring of the trexio.open function #print(trexio.open.__doc__) nucleus_num = 12 try: trexio.write_nucleus_num(test_file, -100) except trexio.Error: print("Raise error for an attempt to write negative nucleus_num: checked.") # write nucleus_num in the file try: trexio.write_nucleus_num(test_file, nucleus_num) except: raise try: trexio.write_nucleus_num(test_file, nucleus_num*2) except trexio.Error: print("Raise error for an attempt to overwrite nucleus_num: checked.") # initialize charge arrays as a list and convert it to numpy array charges = [6., 6., 6., 6., 6., 6., 1., 1., 1., 1., 1., 1.] #charges_np = np.array(charges, dtype=np.float32) charges_np = np.array(charges, dtype=np.int32) # function call below works with both lists and numpy arrays, dimension needed for memory-safety is derived # from the size of the list/array by SWIG using typemaps from numpy.i trexio.write_nucleus_charge(test_file, charges_np) basis_shell_num = 24 # initialize arrays of nuclear indices as a list and convert it to numpy array indices = [i for i in range(basis_shell_num)] # type cast is important here because by default numpy transforms a list of integers into int64 array indices_np = np.array(indices, dtype=np.int64) # first write basis_shell_num because it is needed to check dimensions of basis_nucleus_index in TREXIO >= 2.0.0 trexio.write_basis_shell_num(test_file, basis_shell_num) # function call below works with both lists and numpy arrays, dimension needed for memory-safety is derived # from the size of the list/array by SWIG using typemacs from numpy.i trexio.write_basis_nucleus_index(test_file, indices_np) # initialize a list of nuclear coordinates coords = [ [ 0.00000000 , 1.39250319 , 0.00000000 ], [-1.20594314 , 0.69625160 , 0.00000000 ], [-1.20594314 , -0.69625160 , 0.00000000 ], [ 0.00000000 , -1.39250319 , 0.00000000 ], [ 1.20594314 , -0.69625160 , 0.00000000 ], [ 1.20594314 , 0.69625160 , 0.00000000 ], [-2.14171677 , 1.23652075 , 0.00000000 ], [-2.14171677 , -1.23652075 , 0.00000000 ], [ 0.00000000 , -2.47304151 , 0.00000000 ], [ 2.14171677 , -1.23652075 , 0.00000000 ], [ 2.14171677 , 1.23652075 , 0.00000000 ], [ 0.00000000 , 2.47304151 , 0.00000000 ], ] # write coordinates in the file trexio.write_nucleus_coord(test_file, coords) # write mo_num (needed later to write sparse mo_2e_int_eri integrals) trexio.write_mo_num(test_file, 600) # write sparse data in the file num_integrals = 100 indices = [i for i in range(num_integrals*4)] values = [(3.14 + float(i)) for i in range(num_integrals)] trexio.write_mo_2e_int_eri(test_file, 0, num_integrals, indices, values) # write nucleus_point_group in the file point_group = 'B3U' trexio.write_nucleus_point_group(test_file, point_group) # write nucleus_label in the file labels = [ 'C', 'C', 'C', 'C', 'C', 'C', 'H', 'H', 'H', 'H', 'H', 'H'] trexio.write_nucleus_label(test_file,labels) # close TREXIO file # this call is no longer needed as we introduced TREXIO_File class which has a desctructor that closes the file #trexio.close(test_file) # without calling destructor on test_file the TREXIO_FILE is not getting created and the data is not written when using TEXT back end. # This, the user still has to explicitly call destructor on test_file object instead of the trexio.close function. # This is only an issue when the data is getting written and read in the same session (e.g. in Jupyter notebook) del test_file #==========================================================# #========== DELETE THE GROUP FROM THE TEST FILE ===========# #==========================================================# unsafe_file = trexio.File(output_filename, 'u', TEST_TREXIO_BACKEND) # overwrite existing data (only allowed in 'u' - unsafe mode) trexio.write_nucleus_num(unsafe_file, nucleus_num) trexio.write_nucleus_charge(unsafe_file, charges_np) trexio.write_nucleus_coord(unsafe_file, coords) trexio.write_nucleus_label(unsafe_file,labels) trexio.write_nucleus_point_group(unsafe_file, point_group) print("Overwriting the data in UNSAFE mode: checked") # delete existing group (only allowed in 'u' - unsafe mode) trexio.delete_nucleus(unsafe_file) assert not trexio.has_nucleus_num(unsafe_file) assert not trexio.has_nucleus_charge(unsafe_file) assert not trexio.has_nucleus_coord(unsafe_file) assert not trexio.has_nucleus_label(unsafe_file) assert not trexio.has_nucleus_point_group(unsafe_file) print("Deleting nucleus group in UNSAFE mode: checked") # restore the deleted data trexio.write_nucleus_num(unsafe_file, nucleus_num) trexio.write_nucleus_charge(unsafe_file, charges_np) trexio.write_nucleus_coord(unsafe_file, coords) trexio.write_nucleus_label(unsafe_file,labels) trexio.write_nucleus_point_group(unsafe_file, point_group) del unsafe_file #==========================================================# #============ READ THE DATA FROM THE TEST FILE ============# #==========================================================# # open previously created TREXIO file, now in 'read' mode test_file2 = trexio.File(output_filename, 'r', trexio.TREXIO_AUTO) assert test_file2.exists # check for existence of some of the previously written variables assert trexio.has_nucleus_num(test_file2) assert trexio.has_nucleus_charge(test_file2) assert trexio.has_nucleus_coord(test_file2) assert trexio.has_nucleus_label(test_file2) assert trexio.has_nucleus_point_group(test_file2) assert trexio.has_mo_2e_int_eri(test_file2) # read nucleus_num from file rnum = trexio.read_nucleus_num(test_file2) assert rnum==nucleus_num # safe call to read_nucleus_charge array of float values rcharges_np = trexio.read_nucleus_charge(test_file2, dim=nucleus_num) assert rcharges_np.dtype is np.dtype(np.float64) np.testing.assert_array_almost_equal(rcharges_np, charges_np, decimal=8) # unsafe call to read_safe should fail with error message corresponding to TREXIO_UNSAFE_ARRAY_DIM try: rcharges_fail = trexio.read_nucleus_charge(test_file2, dim=nucleus_num*5) except trexio.Error: print("Unsafe call to safe API: checked") # safe call to read array of int values (nuclear indices) rindices_np_16 = trexio.read_basis_nucleus_index(test_file2, dim=basis_shell_num, dtype=np.int16) assert rindices_np_16.dtype is np.dtype(np.int16) for i in range(basis_shell_num): assert rindices_np_16[i]==indices_np[i] rindices_np_32 = trexio.read_basis_nucleus_index(test_file2, dim=basis_shell_num, dtype=np.int32) assert rindices_np_32.dtype is np.dtype(np.int32) for i in range(basis_shell_num): assert rindices_np_32[i]==indices_np[i] rindices_np_64 = trexio.read_basis_nucleus_index(test_file2) assert rindices_np_64.dtype is np.dtype(np.int64) assert rindices_np_64.size==basis_shell_num for i in range(basis_shell_num): assert rindices_np_64[i]==indices_np[i] # read nuclear coordinates without providing optional argument dim rcoords_np = trexio.read_nucleus_coord(test_file2) assert rcoords_np.size==nucleus_num*3 np.testing.assert_array_almost_equal(rcoords_np, np.array(coords).reshape(nucleus_num,3), decimal=8) # set doReshape to False to get a flat 1D array (e.g. when reading matrices like nuclear coordinates) #rcoords_reshaped_2 = trexio.read_nucleus_coord(test_file2, doReshape=False) # read number of integrals already present in the file assert trexio.has_mo_2e_int_eri(test_file2) assert trexio.read_mo_2e_int_eri_size(test_file2)==num_integrals # read sparse arrays on mo_2e_int_eri integrals buf_size = 60 offset_file = 0 # read full buf_size (i.e. the one that does not reach EOF) indices_sparse_np, value_sparse_np, read_buf_size, eof = trexio.read_mo_2e_int_eri(test_file2, offset_file, buf_size) print(f'First complete sparse read size: {read_buf_size}') #print(indices_sparse_np) assert not eof assert read_buf_size==buf_size assert indices_sparse_np[0][0]==0 assert indices_sparse_np[read_buf_size-1][3]==read_buf_size*4-1 offset_file += buf_size # read incomplete buf_size (i.e. the one that does reach EOF) indices_sparse_np, value_sparse_np, read_buf_size, eof2 = trexio.read_mo_2e_int_eri(test_file2, offset_file, buf_size) print(f'Second incomplete sparse read size: {read_buf_size}') #print(indices_sparse_np) assert eof2 assert read_buf_size==(num_integrals - buf_size) assert indices_sparse_np[0][0]==offset_file*4 assert indices_sparse_np[read_buf_size-1][3]==(offset_file+read_buf_size)*4-1 # read array of nuclear labels rlabels_2d = trexio.read_nucleus_label(test_file2, dim=nucleus_num) print(rlabels_2d) for i in range(nucleus_num): assert rlabels_2d[i]==labels[i] # read a string corresponding to nuclear point group rpoint_group = trexio.read_nucleus_point_group(test_file2) assert rpoint_group==point_group # another way to read only if the variable exists if trexio.has_ao_num(test_file2): rao_num = trexio.read_ao_num(test_file2) else: print("Pass on reading the non-existing variable ao_num: checked") # close TREXIO file #trexio.close(test_file2) # cleaning (remove the TREXIO file) try: if TEST_TREXIO_BACKEND == trexio.TREXIO_HDF5: os.remove(output_filename) elif TEST_TREXIO_BACKEND == trexio.TREXIO_TEXT: shutil.rmtree(output_filename) except: print(f'No output file {output_filename} has been produced') #==========================================================# #==========================================================# #======= OPEN NON-EXISTING FILE TO TEST TREXIO.OPEN =======# #==========================================================# try: void_file = trexio.File('non_existing.file', 'r', TEST_TREXIO_BACKEND) except trexio.Error as e: if e.error == trexio.TREXIO_OPEN_ERROR: print("Opening non-existing file returns TREXIO_OPEN_ERROR: checked") else: raise ValueError("[DEV]: error handling of trexio_open function has changed; check the consistency") #==========================================================#