!************************************************************ ! ! This example shows how to read and write array datatypes ! to an attribute. The program first writes integers arrays ! of dimension ADIM0xADIM1 to an attribute with a dataspace ! of DIM0, then closes the file. Next, it reopens the ! file, reads back the data, and outputs it to the screen. ! ! This file is intended for use with HDF5 Library version 1.8 ! with --enable-fortran2003 ! !************************************************************ PROGRAM main USE HDF5 USE ISO_C_BINDING IMPLICIT NONE CHARACTER(LEN=22), PARAMETER :: filename = "h5ex_t_arrayatt_F03.h5" CHARACTER(LEN=3) , PARAMETER :: dataset = "DS1" CHARACTER(LEN=2) , PARAMETER :: attribute = "A1" INTEGER , PARAMETER :: dim0 = 4 INTEGER , PARAMETER :: adim0 = 3 INTEGER , PARAMETER :: adim1 = 5 INTEGER(HID_T) :: file, filetype, memtype, space, dset, attr ! Handles INTEGER :: hdferr INTEGER(HSIZE_T), DIMENSION(1:1) :: dims = (/dim0/) INTEGER(HSIZE_T), DIMENSION(1:2) :: adims = (/adim0, adim1/) INTEGER(HSIZE_T), DIMENSION(1:2) :: maxdims INTEGER, DIMENSION(1:dim0, 1:adim0, 1:adim1), TARGET :: wdata ! Write buffer INTEGER, DIMENSION(:,:,:), ALLOCATABLE, TARGET :: rdata ! Read buffer INTEGER :: i, j, k TYPE(C_PTR) :: f_ptr ! ! Initialize FORTRAN interface. ! CALL h5open_f(hdferr) ! ! Initialize data. i is the element in the dataspace, j and k the ! elements within the array datatype. ! DO i = 1, dim0 DO j = 1, adim0 DO k = 1, adim1 wdata(i,j,k) = (i-1)*(j-1)-(j-1)*(k-1)+(i-1)*(k-1) ENDDO ENDDO ENDDO ! ! Create a new file using the default properties. ! CALL h5fcreate_f(filename, H5F_ACC_TRUNC_F, file, hdferr) ! ! Create array datatypes for file and memory. ! CALL H5Tarray_create_f(INT(H5T_STD_I64LE, HID_T), 2, adims, filetype, hdferr) CALL H5Tarray_create_f(H5T_NATIVE_INTEGER, 2, adims, memtype, hdferr) ! ! Create dataset with a null dataspace. ! CALL H5Screate_f(H5S_NULL_F, space, hdferr) CALL h5dcreate_f(file, dataset, H5T_STD_I32LE, space, dset, hdferr) CALL H5Sclose_f(space, hdferr) ! ! Create dataspace. Setting maximum size to be the current size. ! CALL h5screate_simple_f(1, dims, space, hdferr) ! ! Create the attribute and write the array data to it. ! CALL H5Acreate_f(dset, attribute, filetype, space, attr, hdferr) f_ptr = C_LOC(wdata) CALL H5Awrite_f(attr, memtype, f_ptr, hdferr) ! ! Close and release resources. ! CALL H5Aclose_f(attr, hdferr) CALL H5Dclose_f(dset, hdferr) CALL H5Sclose_f(space, hdferr) CALL H5Tclose_f(filetype, hdferr) CALL H5Tclose_f(memtype, hdferr) CALL H5Fclose_f(file, hdferr) ! ! Now we begin the read section of this example. ! ! Open file, dataset, and attribute. ! CALL h5fopen_f(filename, H5F_ACC_RDONLY_F, file, hdferr) CALL h5dopen_f(file, dataset, dset, hdferr) CALL h5aopen_f(dset, attribute, attr, hdferr) ! ! Get the datatype and its dimensions. ! CALL H5Aget_type_f(attr, filetype, hdferr) CALL H5Tget_array_dims_f(filetype, adims, hdferr) ! ! Get dataspace and allocate memory for read buffer. This is a ! three dimensional attribute when the array datatype is included. ! CALL H5Aget_space_f(attr, space, hdferr) CALL H5Sget_simple_extent_dims_f(space, dims, maxdims, hdferr) ALLOCATE(rdata(1:dims(1),1:adims(1),1:adims(2))) ! ! Create the memory datatype. ! CALL H5Tarray_create_f(H5T_NATIVE_INTEGER, 2, adims, memtype, hdferr) ! ! Read the data. ! f_ptr = C_LOC(rdata) CALL H5Aread_f(attr, memtype, f_ptr, hdferr) ! ! Output the data to the screen. ! DO i = 1, dims(1) WRITE(*,'(A,"[",i1,"]:")') attribute,i-1 DO j=1, adim0 WRITE(*,'(" [")', ADVANCE='NO') WRITE(*,'(80i3)', ADVANCE='NO') rdata(i,j,:) WRITE(*,'(" ]")') ENDDO ENDDO ! ! Close and release resources. ! DEALLOCATE(rdata) CALL H5Aclose_f(attr, hdferr) CALL H5Dclose_f(dset, hdferr) CALL H5Sclose_f(space, hdferr) CALL H5Tclose_f(filetype, hdferr) CALL H5Tclose_f(memtype, hdferr) CALL H5Fclose_f(file, hdferr) END PROGRAM main