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mirror of https://github.com/TREX-CoE/trexio.git synced 2024-12-23 04:43:57 +01:00
trexio/tests/test_f.f90

559 lines
18 KiB
Fortran

program test_trexio
use trexio
use, intrinsic :: iso_c_binding
implicit none
integer :: rc
logical :: have_hdf5
print'(a)' , "============================================"
print'(a,a)' , " TREXIO VERSION STRING : ", TREXIO_PACKAGE_VERSION
print'(a,i3)', " TREXIO MAJOR VERSION : ", TREXIO_VERSION_MAJOR
print'(a,i3)', " TREXIO MINOR VERSION : ", TREXIO_VERSION_MINOR
print'(a)' , "============================================"
rc = trexio_info()
call system('rm -f -- test_write_f.dir/*.txt test_write_f.dir/*.txt.size test_write_f.dir/.lock && rm -fd -- test_write_f.dir')
print *, 'call test_write(''test_write_f.dir'', TREXIO_TEXT)'
call test_write('test_write_f.dir', TREXIO_TEXT)
print *, 'call test_read(''test_write_f.dir'', TREXIO_TEXT)'
call test_read('test_write_f.dir', TREXIO_TEXT)
call system('rm -f -- test_write_f.dir/*.txt test_write_f.dir/*.txt.size test_write_f.dir/.lock && rm -fd -- test_write_f.dir')
call test_read_void('test_write_f.dir', TREXIO_TEXT)
! No way to conditionally check whether compilation was done with HDF5
! So temporarily disable the test for HDF5 back end at the moment
have_hdf5 = trexio_has_backend(TREXIO_HDF5)
if (have_hdf5) then
call system('rm -f -- test_write_f.h5')
print *, 'call test_write(''test_write_f.h5'', TREXIO_HDF5)'
call test_write('test_write_f.h5', TREXIO_HDF5)
print *, 'call test_read(''test_write_f.h5'', TREXIO_HDF5)'
call test_read('test_write_f.h5', TREXIO_HDF5)
call system('rm -f -- test_write_f.h5')
call test_read_void('test_write_f.h5', TREXIO_HDF5)
endif
end program test_trexio
subroutine test_write(file_name, back_end)
! ============ Test write functionality =============== !
use trexio
use, intrinsic :: iso_c_binding
implicit none
character*(*), intent(in) :: file_name
integer, intent(in) :: back_end
integer(trexio_t) :: trex_file
integer(trexio_exit_code) :: rc = 1
integer :: nucleus_num, mo_num, ao_num, basis_shell_num
integer :: basis_nucleus_index(24)
double precision :: charge(12)
double precision :: coord(3,12)
character(len=:), allocatable :: sym_str
character(len=:), allocatable :: label(:)
double precision, allocatable :: energy(:)
integer , allocatable :: spin(:)
! sparse data
integer(4) :: index_sparse_ao_2e_int_eri(4,100)
double precision :: value_sparse_ao_2e_int_eri(100)
! determinants
integer*8 :: det_list(6, 50)
integer*8 :: det_num
integer :: int_num
integer :: i, j, n_buffers = 5
integer(8) :: buf_size_sparse, buf_size_det, offset
buf_size_sparse = 100/n_buffers
buf_size_det = 50/n_buffers
! fill sparse indices and values
do i = 1, 100
index_sparse_ao_2e_int_eri(1,i) = 4*i - 3
index_sparse_ao_2e_int_eri(2,i) = 4*i+1 - 3
index_sparse_ao_2e_int_eri(3,i) = 4*i+2 - 3
index_sparse_ao_2e_int_eri(4,i) = 4*i+3 - 3
value_sparse_ao_2e_int_eri(i) = 3.14 + float(i)
enddo
! fill determinant list
do i = 1, 50
do j = 1, 6
det_list(j,i) = 6*i+(j-1) - 5
enddo
enddo
! parameters to be written
nucleus_num = 12
charge = (/ 6., 6., 6., 6., 6., 6., 1., 1., 1., 1., 1., 1. /)
coord = reshape( (/ 0.00000000d0, 1.39250319d0 , 0.00000000d0 , &
-1.20594314d0, 0.69625160d0 , 0.00000000d0 , &
-1.20594314d0, -0.69625160d0 , 0.00000000d0 , &
0.00000000d0, -1.39250319d0 , 0.00000000d0 , &
1.20594314d0, -0.69625160d0 , 0.00000000d0 , &
1.20594314d0, 0.69625160d0 , 0.00000000d0 , &
-2.14171677d0, 1.23652075d0 , 0.00000000d0 , &
-2.14171677d0, -1.23652075d0 , 0.00000000d0 , &
0.00000000d0, -2.47304151d0 , 0.00000000d0 , &
2.14171677d0, -1.23652075d0 , 0.00000000d0 , &
2.14171677d0, 1.23652075d0 , 0.00000000d0 , &
0.00000000d0, 2.47304151d0 , 0.00000000d0 /), &
shape(coord) )
! the first dimension of det_list (6) corresponds to mo_num=150; adapt the former if the latter is changed
mo_num = 150
ao_num = 1000
basis_shell_num = 24
basis_nucleus_index = (/ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24 /)
label = [character(len=8) :: 'C', 'Na','C', 'C 66', 'C','C', 'H 99', 'Ru', 'H', 'H', 'H', 'H' ]
sym_str = 'B3U with some comments'
! ================= START OF TEST ===================== !
rc = trexio_inquire(file_name)
call trexio_assert(rc, TREXIO_FAILURE)
trex_file = trexio_open(file_name, 'w', back_end, rc)
call trexio_assert(rc, TREXIO_SUCCESS)
rc = trexio_has_nucleus_num(trex_file)
call trexio_assert(rc, TREXIO_HAS_NOT, 'SUCCESS HAS NOT 1')
rc = trexio_has_nucleus_charge(trex_file)
call trexio_assert(rc, TREXIO_HAS_NOT, 'SUCCESS HAS NOT 2')
rc = trexio_has_ao_2e_int_eri(trex_file)
call trexio_assert(rc, TREXIO_HAS_NOT, 'SUCCESS HAS NOT 3')
rc = trexio_has_determinant_list(trex_file)
call trexio_assert(rc, TREXIO_HAS_NOT, 'SUCCESS HAS NOT 4')
rc = trexio_has_nucleus(trex_file)
call trexio_assert(rc, TREXIO_HAS_NOT, 'SUCCESS HAS NOT 5')
rc = trexio_has_ao_2e_int(trex_file)
call trexio_assert(rc, TREXIO_HAS_NOT, 'SUCCESS HAS NOT 6')
rc = trexio_write_nucleus_num(trex_file, nucleus_num)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE NUM')
rc = trexio_write_nucleus_charge(trex_file, charge)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE CHARGE')
rc = trexio_write_nucleus_coord(trex_file, coord)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE COORD')
rc = trexio_write_nucleus_label(trex_file, label, 5)
deallocate(label)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE LABEL')
rc = trexio_write_nucleus_point_group(trex_file, sym_str, 32)
deallocate(sym_str)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE POINT GROUP')
rc = trexio_write_basis_shell_num(trex_file, basis_shell_num)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE BASIS NUM')
rc = trexio_write_basis_nucleus_index(trex_file, basis_nucleus_index)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE INDEX')
! write ao_num which will be used to determine the optimal size of int indices
if (trexio_has_ao_num(trex_file) == TREXIO_HAS_NOT) then
rc = trexio_write_ao_num(trex_file, ao_num)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE AO NUM')
endif
! write mo_num which will be used to determine the optimal size of the determinants bit fields
if (trexio_has_mo_num(trex_file) == TREXIO_HAS_NOT) then
rc = trexio_write_mo_num(trex_file, mo_num)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE MO NUM')
endif
allocate(energy(mo_num))
do i=1,mo_num
energy(i) = dble(i)-100.d0
enddo
rc = trexio_write_mo_energy(trex_file, energy)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE ENERGY')
deallocate(energy)
allocate(spin(mo_num))
spin(:) = 0
do i=mo_num/2+1,mo_num
spin(i) = 1
enddo
rc = trexio_write_mo_spin(trex_file, spin)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE SPIN')
deallocate(spin)
offset = 0
do i = 1,n_buffers
rc = trexio_write_ao_2e_int_eri(trex_file, offset, buf_size_sparse, &
index_sparse_ao_2e_int_eri(1,offset+1), &
value_sparse_ao_2e_int_eri(offset+1))
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE SPARSE')
offset = offset + buf_size_sparse
enddo
offset = 0
do i = 1,n_buffers
rc = trexio_write_determinant_list(trex_file, offset, buf_size_det, &
det_list(1,offset+1))
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS WRITE DET LIST')
offset = offset + buf_size_det
enddo
rc = trexio_has_nucleus_num(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS HAS 1')
rc = trexio_has_nucleus_coord(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS HAS 2')
rc = trexio_has_ao_2e_int_eri(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS HAS 3')
rc = trexio_has_determinant_list(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS HAS 4')
rc = trexio_has_nucleus(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS HAS 5')
rc = trexio_has_ao_2e_int(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS HAS 6')
rc = trexio_close(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS, 'SUCCESS CLOSE')
! ================= END OF TEST ===================== !
end subroutine test_write
subroutine test_read(file_name, back_end)
! ============ Test read functionality =============== !
use trexio
implicit none
character*(*), intent(in) :: file_name
integer, intent(in) :: back_end
integer(trexio_t) :: trex_file
integer :: i, j, k, ind, offset, flag
integer(trexio_exit_code) :: rc = 1
integer :: num, num_read, basis_shell_num
integer :: basis_nucleus_index(24)
double precision :: charge(12)
double precision :: coord(3,12)
character :: label_str(128)
character(len=4) :: tmp_str
character(len=4) :: label(12) ! also works with allocatable arrays
character(len=32) :: sym_str
integer :: mo_num
double precision, allocatable :: energy(:)
integer , allocatable :: spin(:)
! sparse data
integer(4) :: index_sparse_ao_2e_int_eri(4,20)
double precision :: value_sparse_ao_2e_int_eri(20)
integer(8) :: read_buf_size = 10
integer(8) :: read_buf_size_save = 10
integer(8) :: offset_read = 40
integer(8) :: offset_data_read = 5
integer(8) :: offset_eof = 97
integer(8) :: offset_data_eof = 1
integer(8) :: size_toread = 0
! determinant data
integer*8 :: det_list(6,50)
integer*8 :: det_list_check(3)
integer*8 :: read_buf_det_size = 20
integer*8 :: offset_det_read = 10
integer*8 :: offset_det_data_read = 5
integer*8 :: determinant_num
integer :: int_num
! orbital lists
integer*4 :: orb_list_up(150)
integer*4 :: orb_list_dn(150)
integer*4 :: occ_num_up, occ_num_dn
character*(128) :: str
num = 12
basis_shell_num = 24
index_sparse_ao_2e_int_eri = 0
value_sparse_ao_2e_int_eri = 0.0d0
det_list = 0_8
orb_list_up = 0
orb_list_dn = 0
! ================= START OF TEST ===================== !
rc = trexio_inquire(file_name)
call trexio_assert(rc, TREXIO_SUCCESS)
trex_file = trexio_open(file_name, 'r', TREXIO_AUTO, rc)
call trexio_assert(rc, TREXIO_SUCCESS)
rc = trexio_read_nucleus_num(trex_file, num_read)
call trexio_assert(rc, TREXIO_SUCCESS)
if (num_read == num) then
write(*,*) 'SUCCESS READ NUM'
else
print *, 'FAILURE NUM CHECK'
call exit(-1)
endif
rc = trexio_read_nucleus_charge(trex_file, charge)
call trexio_assert(rc, TREXIO_SUCCESS)
if (dabs(charge(11) - 1.d0) < 1.0D-8) then
write(*,*) 'SUCCESS READ CHARGE'
else
print *, 'FAILURE CHARGE CHECK'
call exit(-1)
endif
rc = trexio_read_nucleus_coord(trex_file, coord)
call trexio_assert(rc, TREXIO_SUCCESS)
if (dabs(coord(2,1) - 1.39250319d0) < 1.0D-8) then
write(*,*) 'SUCCESS READ COORD'
else
print *, 'FAILURE COORD CHECK'
call exit(-1)
endif
rc = trexio_read_nucleus_label(trex_file, label, 4)
call trexio_assert(rc, TREXIO_SUCCESS)
if (trim(label(2)) == 'Na' .and. &
trim(label(4)) == 'C 66' .and. &
trim(label(5)) == 'C') then
write(*,*) 'SUCCESS READ LABEL'
else
print *, 'FAILURE LABEL CHECK'
call exit(-1)
endif
rc = trexio_read_basis_nucleus_index(trex_file, basis_nucleus_index)
call trexio_assert(rc, TREXIO_SUCCESS)
if (basis_nucleus_index(12) == 12) then
write(*,*) 'SUCCESS READ INDEX'
else
print *, 'FAILURE INDEX CHECK'
call exit(-1)
endif
rc = trexio_read_nucleus_point_group(trex_file, sym_str, 10)
call trexio_assert(rc, TREXIO_SUCCESS)
if (sym_str(1:3) == 'B3U') then
write(*,*) 'SUCCESS READ POINT GROUP'
else
print *, 'FAILURE POINT GROUP CHECK'
call exit(-1)
endif
rc = trexio_read_ao_2e_int_eri(trex_file, offset_read, read_buf_size, &
index_sparse_ao_2e_int_eri(1, offset_data_read + 1), &
value_sparse_ao_2e_int_eri(offset_data_read + 1))
!do i = 1,20
! write(*,*) index_sparse_ao_2e_int_eri(1,i)
!enddo
call trexio_assert(rc, TREXIO_SUCCESS)
if (index_sparse_ao_2e_int_eri(1, 1) == 0 .and. &
index_sparse_ao_2e_int_eri(1, offset_data_read + 1) == offset_read*4 + 1) then
write(*,*) 'SUCCESS READ SPARSE DATA'
else
print *, 'FAILURE SPARSE DATA CHECK'
call exit(-1)
endif
! attempt to read reaching EOF: should return TREXIO_END and
! NOT increment the existing values in the buffer (only upd with what has been read)
rc = trexio_read_ao_2e_int_eri(trex_file, offset_eof, read_buf_size, &
index_sparse_ao_2e_int_eri(1, offset_data_eof + 1), &
value_sparse_ao_2e_int_eri(offset_data_eof + 1))
!do i = 1,20
! write(*,*) index_sparse_ao_2e_int_eri(1,i)
!enddo
call trexio_assert(rc, TREXIO_END)
if (read_buf_size == 3 .and. &
index_sparse_ao_2e_int_eri(1, 1) == 0 .and. &
index_sparse_ao_2e_int_eri(1, offset_data_read + 1) == offset_read*4 + 1 .and. &
index_sparse_ao_2e_int_eri(1, offset_data_eof + 1) == offset_eof*4 + 1) then
write(*,*) 'SUCCESS READ SPARSE DATA EOF'
read_buf_size = read_buf_size_save
else
print *, 'FAILURE SPARSE DATA EOF CHECK'
call exit(-1)
endif
! read the size (number of integrals) of the sparse dataset
rc = trexio_read_ao_2e_int_eri_size(trex_file, size_toread)
call trexio_assert(rc, TREXIO_SUCCESS)
if (size_toread == 100) then
write(*,*) 'SUCCESS READ SPARSE SIZE'
else
print *, 'FAILURE SPARSE SIZE CHECK'
call exit(-1)
endif
! obtain a number of int64 bit fields per determinant
rc = trexio_get_int64_num(trex_file, int_num)
call trexio_assert(rc, TREXIO_SUCCESS)
if (int_num == 3) then
write(*,*) 'SUCCESS GET INT64_NUM'
else
print *, 'FAILURE DET INT64_NUM CHECK'
call exit(-1)
endif
! read a chunk of determinants
rc = trexio_read_determinant_list(trex_file, offset_det_read, read_buf_det_size, &
det_list(1, offset_det_data_read + 1))
!do i = 1,50
! write(*,*) det_list(1,i)
!enddo
call trexio_assert(rc, TREXIO_SUCCESS)
if (det_list(1, 1) == 0 .and. &
det_list(1, offset_det_data_read + 1) == offset_det_read*6 + 1) then
write(*,*) 'SUCCESS READ DET LIST'
else
print *, 'FAILURE DET LIST CHECK'
call exit(-1)
endif
! read the total number of stored determinants
rc = trexio_read_determinant_num_64(trex_file, determinant_num)
call trexio_assert(rc, TREXIO_SUCCESS)
if (determinant_num == 50_8) then
write(*,*) 'SUCCESS READ DET NUM'
else
print *, 'FAILURE DET NUM CHECK'
call exit(-1)
endif
! convert one given determinant into lists of orbitals
rc = trexio_to_orbital_list_up_dn(3, det_list(:, offset_det_data_read+1), orb_list_up, orb_list_dn, occ_num_up, occ_num_dn)
!write(*,*) occ_num_up, occ_num_dn
! Print occupied orbitals for an up-spin component of a given determinant
!write(*,*) orb_list_up(1:occ_num_up)
! Print integers representanting a given determinant fully (up- and down-spin components)
!write(*,*) det_list(:, offset_det_data_read+1)
! Print binary representation of the first integer bit field of a given determinant
!write(*,'(B64.64)') det_list(1, offset_det_data_read+1)
call trexio_assert(rc, TREXIO_SUCCESS)
if (occ_num_up == 16 .and. occ_num_dn == 5) then
write(*,*) 'SUCCESS CONVERT DET LIST'
else
print *, 'FAILURE DET CONVERT CHECK'
call exit(-1)
endif
! convert one orbital list into a bitfield determinant representation
rc = trexio_to_bitfield_list(orb_list_up, occ_num_up, det_list_check, 3)
!write(*,*) occ_num_up, occ_num_dn
! Print occupied orbitals for an up-spin component of a given determinant
!write(*,*) orb_list_up(1:occ_num_up)
! Print integers representanting a given determinant fully (up- and down-spin components)
!write(*,*) det_list(1:3, offset_det_data_read+1)
!write(*,*) det_list_check(1:3)
! Print binary representation of the first integer bit field of a given determinant
!write(*,'(B64.64)') det_list(1, offset_det_data_read+1)
call trexio_assert(rc, TREXIO_SUCCESS)
if (det_list_check(1) == det_list(1, offset_det_data_read+1) .and. &
det_list_check(2) == det_list(2, offset_det_data_read+1) .and. &
det_list_check(3) == det_list(3, offset_det_data_read+1)) then
write(*,*) 'SUCCESS CONVERT ORB LIST'
else
print *, 'FAILURE ORB CONVERT CHECK'
call exit(-1)
endif
rc = trexio_read_mo_num(trex_file, mo_num)
call trexio_assert(rc, TREXIO_SUCCESS)
allocate(spin(mo_num), energy(mo_num))
rc = trexio_read_mo_energy(trex_file, energy)
call trexio_assert(rc, TREXIO_SUCCESS)
if (energy(10) /= -90.d0) then
print *, 'Failure to read MO energy: ', energy(10)
call exit(-1)
end if
rc = trexio_read_mo_spin(trex_file, spin)
call trexio_assert(rc, TREXIO_SUCCESS)
if (sum(spin) /= mo_num/2) then
print *, 'Failure to read MO spin', mo_num, sum(spin)
call exit(-1)
end if
! close the file
rc = trexio_close(trex_file)
call trexio_assert(rc, TREXIO_SUCCESS)
! ================= END OF TEST ===================== !
end subroutine test_read
subroutine test_read_void(file_name, back_end)
! ============ Test read of non-existing file =============== !
use trexio
implicit none
character*(*), intent(in) :: file_name
integer, intent(in) :: back_end
integer(trexio_t) :: trex_file
integer :: rc = 1
character(128) :: str
! ================= START OF TEST ===================== !
trex_file = trexio_open(file_name, 'r', back_end, rc)
if (rc /= TREXIO_OPEN_ERROR) then
rc = trexio_close(trex_file)
endif
call trexio_assert(rc, TREXIO_OPEN_ERROR)
call trexio_string_of_error(rc, str)
print *, 'Test error message: ', trim(str)
! ================= END OF TEST ===================== !
end subroutine test_read_void